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| Volume I |
| Plenaries |
| KEYNOTE: Pervasive Broadband: Opportunities for Signal Processing |
| PLENARY-1: Advances in Networked Media - Theory and Practice |
| PLENARY-2: Ultra-Wideband Communications: An Idea whose Time has Come |
| Speech Processing |
| SPEECH-L1: Acoustic Modeling for Robust ASR |
| SPEECH-L2: Language ID |
| SPEECH-L3: Novel Feature Extraction and Processing |
| SPEECH-L4: Speech Enhancement I |
| SPEECH-L5: Packet Loss and Channel Coding |
| SPEECH-L6: Acoustic Modeling: Survey of New Techniques |
| SPEECH-L7: Speech Modelling and Analysis |
| SPEECH-L8: New Methods for Speaker Recognition, Segmentation, and Implementation |
| SPEECH-L9: Large Vocabulary Speech Recognition |
| SPEECH-L10: Unsupervised Language Model Adaptation |
| SPEECH-L11: Speech Synthesis Overview |
| SPEECH-L12: Spoken Language Understanding |
| SPEECH-L13: Speaker Adaptation |
| SPEECH-L14: Robust ASR in Mobile and Distributed Environments |
| SPEECH-P1: Language Modelling and Large Vocabulary Recognition |
| SPEECH-P2: Feature Processing for Robust ASR |
| SPEECH-P3: Speech Analysis |
| SPEECH-P4: Speech Synthesis: Prosody |
| SPEECH-P5: Acoustic Adaptation Techniques |
| SPEECH-P6: Spoken Language Systems and Confidence Measures |
| SPEECH-P7: Speech Enhancement including Applications to Robust ASR |
| SPEECH-P8: Speech Synthesis: Segmental Modelling and Processing |
| SPEECH-P9: Acoustic Modeling of Coarticulation, Lexical and Task Information |
| SPEECH-P10: Speech Coding and Speech Analysis |
| SPEECH-P11: Speech Enhancement II |
| SPEECH-P12: Feature-Oriented Acoustic Modeling |
| Volume II |
| Speech Processing |
| SPEECH-P13: Feature Extraction Techniques and Applications |
| SPEECH-P14: Speaker Verification and Identification Systems |
| SPEECH-P15: General Topics in Robust ASR |
| SPEECH-P16: Speech Coding |
| SPEECH-P17: Speaker ID/Verification: Discriminative Methods and Multiple Speakers |
| Industry Technology Track |
| ITT-L1: Emerging Industrial Applications |
| ITT-L2: Biomedical and Biometric Technology I |
| ITT-L3: Speech Recognition |
| ITT-L4: DSP Architectures |
| ITT-L5: Communication Technologies |
| ITT-P1: Biomedical and Biometric Technology II |
| ITT-P2: Defense, Tracking and Security Applications |
| ITT-P3: Radio, Telephony and Television |
| Design and Implementation of Signal Processing Systems |
| DISPS-L1: High Performance Video and Image Processing Architectures |
| DISPS-L2: High Performance DSP Computational Kernels |
| DISPS-L3: Design Methods for Optimized DSP Architectures |
| DISPS-P1: Performance Evaluation and Design Methods for DSP Systems |
| DISPS-P2: Innovative DSP Systems and Applications |
| DISPS-P3: IPs and Architectures for DSP Applications |
| Neural Networks for Signal Processing |
| NEURAL-L1: Neural Models and Systems |
| NEURAL-L2: Blind Source Separation and Independent Component Analysis |
| NEURAL-L3: Neural Networks for Speech Processing |
| NEURAL-P1: Architectures and Applications of Neural Networks |
| NEURAL-P2: Neural Networks for Pattern Recognition and Image Processing |
| Volume III |
| Image and Multidimensional Signal Processing |
| IMSP-L1: Image and Video Indexing and Retrieval |
| IMSP-L2: Human Movement Analysis and Tracking |
| IMSP-L3: Watermarking I |
| IMSP-L4: Video Coding I |
| IMSP-L5: Image and Video Interpolation |
| IMSP-L6: Face Recognition |
| IMSP-L7: Motion Estimation |
| IMSP-L8: Video Summarization |
| IMSP-P1: Face Analysis |
| IMSP-P2: Lossless and Lossy Image Coding |
| IMSP-P3: Multidimensional Signal processing Theory and Methods |
| IMSP-P4: Image and Video Segmentation |
| IMSP-P5: Video Coding II |
| IMSP-P6: Image Processing: Applications |
| IMSP-P7: Image and Video Analysis I |
| IMSP-P8: Watermarking II |
| IMSP-P9: Image and Video Indexing and Retrieval II |
| IMSP-P10: Image and Video Coding and Quality |
| IMSP-P11: Image and Video Analysis II |
| IMSP-P12: Image and Video Restoration |
| Signal Processing Education |
| SPED-P1: Signal Processing Education |
| Volume IV |
| Signal Processing for Communications |
| SPCOM-L1: Detection |
| SPCOM-L2: Space-Time Coding |
| SPCOM-L3: Multiuser Detection for CDMA |
| SPCOM-L4: Cooperative Systems (Feedback) |
| SPCOM-L5: Long-code CDMA Receivers |
| SPCOM-L6: Ultra-wideband |
| SPCOM-L7: CDMA System Design |
| SPCOM-L8: Transmit Diversity Systems |
| SPCOM-L9: Wireless Access and Networking |
| SPCOM-L10: Exploiting Cyclic Prefixes in OFDM |
| SPCOM-P1: Coding and Compression |
| SPCOM-P2: Blind Source Separation/Identification |
| SPCOM-P3: Space-Time Coding, MIMO Capacity |
| SPCOM-P4: Space-time Block Coding and MIMO-OFDM |
| SPCOM-P5: CDMA Receivers |
| SPCOM-P6: Channel Estimation and Equalization |
| SPCOM-P7: OFDM/DMT System Design |
| SPCOM-P8: Synchronization and Timing Recovery |
| SPCOM-P9: Training, Estimation and Channel Characterization |
| SPCOM-P10: OFDM Channel Estimation/Interference Cancellation |
| Special Sessions |
| SPEC-L1: Multimedia Security and Right Management |
| SPEC-L2: Smart Meeting Rooms |
| SPEC-L3: Image-based Rendering |
| SPEC-L4: Exploiting High-Level Information for High-Performance Speaker Recognition |
| SPEC-L5: Multiuser MIMO Wireless Downlink Processing |
| SPEC-L6: Distributed Digital Signal Processing for Sensor Networking: Theory and Implementation |
| SPEC-L7: Support Vector Machines and Kernel Techniques in Signal Processing |
| Volume V |
| Sensor Array and Multichannel Signal Processing |
| SAM-L1: Multichannel Imaging |
| SAM-L2: Blind Source Separation and Channel Equalization |
| SAM-L3: MIMO Systems |
| SAM-L4: Applications of Multichannel Signal Processing |
| SAM-P1: Space-time Processing for Communications |
| SAM-P2: Source Localization and Tracking |
| SAM-P3: Direction-of-arrival Estimation |
| SAM-P4: Signal Detection and Estimation |
| SAM-P5: Blind Source Separation |
| SAM-P6: Adaptive Beamforming and Space-time Processing |
| Audio and Electroacoustics |
| AUDIO-L1: Echo Cancellation |
| AUDIO-L2: Broadband and Perceptual Coding I |
| AUDIO-L3: Applications to Music |
| AUDIO-L4: Broadband and Perceptual Coding II |
| AUDIO-P1: Loudspeaker and Microphone Array Signal Processing |
| AUDIO-P2: Applications to Music, Auditory Modeling, and Hearing Aids |
| AUDIO-P3: Echo Cancellation and Active Noise Control |
| AUDIO-P4: Multimedia, Spatial, Multichannel, and Network Audio |
| Multimedia Signal Processing |
| MMEDIA-L1: Multimedia Security |
| MMEDIA-L2: Multimedia Communication and Networking |
| MMEDIA-L3: Human-Machine Interface and Perception |
| MMEDIA-P1: Signal Processing for Media Integration |
| MMEDIA-P2: Multimedia Applications |
| Volume VI |
| Signal Processing Theory and Methods |
| SPTM-L1: Filter Design |
| SPTM-L2: System Modeling and Representation |
| SPTM-L3: Tracking and State Estimation |
| SPTM-L4: LMS-based Adaptive Filtering |
| SPTM-L5: Applications of Multirate Signal Processing |
| SPTM-L6: Time-varying Spectral Estimation |
| SPTM-L7: Classification and Segmentation |
| SPTM-L8: Denoising |
| SPTM-P1: Applications of Adaptive Filtering |
| SPTM-P2: Sampling, Extrapolation and Interpolation |
| SPTM-P3: System Identification and Spectrum Estimation |
| SPTM-P4: Adaptive Filtering |
| SPTM-P5: Mathematical Techniques for Multirate Signal Processing |
| SPTM-P6: Non-stationary Signals and Time-frequency Analysis |
| SPTM-P7: Filter Banks |
| SPTM-P8: Applications of Detection and Estimation |
| SPTM-P9: Signal Restoration, Reconstruction and Enhancement |
| SPTM-P10: Adaptive Systems and Signal Processing |
| SPTM-P11: Non-linear Systems and Signal Processing |
| SPTM-P12: Detection and Estimation |
| Top |
| KEYNOTE: Pervasive Broadband: Opportunities for Signal Processing |
| KEYNOTE: PERVASIVE BROADBAND: OPPORTUNITIES FOR SIGNAL PROCESSING |
| Nikil Jayant, Georgia Institute of Technology, United States |
| Top |
| PLENARY-1: Advances in Networked Media - Theory and Practice |
| PLENARY-1: ADVANCES IN NETWORKED MEDIA - THEORY AND PRACTICE |
| Ya-Qin Zhang, Microsoft Research, China |
| Top |
| PLENARY-2: Ultra-Wideband Communications: An Idea whose Time has Come |
| PLENARY-2: ULTRA-WIDEBAND COMMUNICATIONS: AN IDEA WHOSE TIME HAS COME |
| Georgios B. Giannakis, University of Minnesota, United States |
| Top |
| SPEECH-L1: Acoustic Modeling for Robust ASR |
| SPEECH-L1.1: RECENT IMPROVEMENTS IN THE CU SONIC ASR SYSTEM FOR NOISY SPEECH: THE SPINE TASK |
| Bryan Pellom, Kadri Hacioglu, University of Colorado, Boulder, United States |
| SPEECH-L1.2: A DISCRIMINATIVE AND ROBUST TRAINING ALGORITHM FOR NOISY SPEECH RECOGNITION |
| Wei-Tyng Hong, PenPower Technology, Taiwan |
| SPEECH-L1.3: VARIABLE PARAMETER GAUSSIAN MIXTURE HIDDEN MARKOV MODELING FOR SPEECH RECOGNITION |
| Xiaodong Cui, University of California, Los Angeles, United States; Yifan Gong, Texas Instruments, United States |
| SPEECH-L1.4: CONFIDENCE OF AGREEMENT AMONG MULTIPLE LVCSR MODELS AND MODEL COMBINATION BY SVM |
| Takehito Utsuro, Yasuhiro Kodama, Tomohiro Watanabe, Hiromitsu Nishizaki, Seiichi Nakagawa, Toyohashi University of Technology, Japan |
| SPEECH-L1.5: SPEECH RECOGNITION OF SPONTANEOUS, NOISY SPEECH USING AUXILIARY INFORMATION IN BAYESIAN NETWORKS |
| Todd Stephenson, Mathew Magimai-Doss, Hervé Bourlard, IDIAP, Switzerland |
| SPEECH-L1.6: FRAME-DEPENDENT MULTI-STREAM RELIABILITY INDICATORS FOR AUDIO-VISUAL SPEECH RECOGNITION |
| Ashutosh Garg, University of Illinois, Urbana-Champaign, United States; Gerasimos Potamianos, Chalapathy Neti, IBM T. J. Watson Research Center, United States; Thomas Huang, University of Illinois, Urbana-Champaign, United States |
| Top |
| SPEECH-L2: Language ID |
| SPEECH-L2.1: MULTI-STREAM LANGUAGE IDENTIFICATION USING DATA-DRIVEN DEPENDENCY SELECTION |
| Sonia Parandekar, Katrin Kirchhoff, University of Washington, United States |
| SPEECH-L2.2: LANGUAGE IDENTIFICATION USING PARALLEL SUB-WORD RECOGNITION |
| A. K. V. SaiJayram, V. Ramasubramanian, Thippur V Sreenivas, Indian Institute of Science, India |
| SPEECH-L2.3: SPEAKER AND TEXT INDEPENDENT LANGUAGE IDENTIFICATION USING PREDICTIVE ERROR HISTOGRAM VECTORS |
| Qian-Rong Gu, Tadashi Shibata, University of Tokyo, Japan |
| SPEECH-L2.4: MODELING PROSODY FOR LANGUAGE IDENTIFICATION ON READ AND SPONTANEOUS SPEECH |
| Jean-Luc Rouas, Jérôme Farinas, IRIT, France; François Pellegrino, DDL, France; Régine André-Obrecht, IRIT, France |
| SPEECH-L2.5: THREE APPROACHES TO MULTILINGUAL PHONE RECOGNITION |
| Eddie Wong, Sridha Sridharan, Queensland University of Technology, Australia |
| SPEECH-L2.6: SCALABLE NEURAL NETWORK BASED LANGUAGE IDENTIFICATION FROM WRITTEN TEXT |
| Jilei Tian, Janne Suontausta, Nokia Research Center, Finland |
| Top |
| SPEECH-L3: Novel Feature Extraction and Processing |
| SPEECH-L3.1: EXPERIMENTS WITH LINEAR AND NONLINEAR FEATURE TRANSFORMATIONS IN HMM BASED PHONE RECOGNITION |
| Panu Somervuo, Helsinki University of Technology, Finland |
| SPEECH-L3.2: GENERALIZED TANDEM FEATURE EXTRACTION |
| Sunil Sivadas, Hynek Hermansky, Oregon Graduate Institute of Science & Technology, United States |
| SPEECH-L3.3: SPEECH RECOGNITION USING RECONSTRUCTED PHASE SPACE FEATURES |
| Andrew Lindgren, Michael Johnson, Richard Povinelli, Marquette University, United States |
| SPEECH-L3.4: ROBUST SPEECH RECOGNITION USING FEATURES BASED ON ZERO CROSSINGS WITH PEAK AMPLITUDES |
| Bojana Gajic, Norwegian University of Science and Technology, Norway; Kuldip Paliwal, Griffith University, Australia |
| SPEECH-L3.5: THE MODIFIED GROUP DELAY FUNCTION AND ITS APPLICATION TO PHONEME RECOGNITION |
| Hema Murthy, Indian Institute of Technology, Madras, India; Venkata Gadde, SRI International, United States |
| SPEECH-L3.6: TONE FEATURE EXTRACTION THROUGH PARAMETRIC MODELING AND ANALYSIS-BY-SYNTHESIS-BASED PATTERN MATCHING |
| Jinfu Ni, Hisashi Kawai, ATR, Japan |
| Top |
| SPEECH-L4: Speech Enhancement I |
| SPEECH-L4.1: THE INCORPORATION OF MASKING THRESHOLD TO SUBSPACE SPEECH ENHANCEMENT |
| Jong Uk Kim, Sang G. Kim, Chang D. Yoo, Korea Advanced Institute of Science and Technology, Republic of Korea |
| SPEECH-L4.2: SUBBAND NOISE ESTIMATION FOR SPEECH ENHANCEMENT USING A PERCEPTUAL WIENER FILTER |
| Lee Lin, W. Harvey Holmes, Eliathamby Ambikairajah, University of New South Wales, Australia |
| SPEECH-L4.3: MULTI-CHANNEL PSYCHOACOUSTICALLY MOTIVATED SPEECH ENHANCEMENT |
| Justinian Rosca, Siemens Corporate Research, United States; Radu Balan, Siemens Corporate research, United States; Christophe Beaugeant, Siemens AG, Germany |
| SPEECH-L4.4: ROBUST VARIATIONAL SPEECH SEPARATION USING FEWER MICROPHONES THAN SPEAKERS |
| Steven Rennie, Parham Aarabi, Trausti Kristjansson, Brendan Frey, Kannan Achan, University of Toronto, Canada |
| SPEECH-L4.5: BLIND DEREVERBERATION OF SINGLE CHANNEL SPEECH SIGNAL BASED ON HARMONIC STRUCTURE |
| Tomohiro Nakatani, Masato Miyoshi, NTT, Japan |
| SPEECH-L4.6: MINIMUM MEAN SQUARE ERROR ESTIMATION OF SPEECH SHORT-TERM PREDICTOR PARAMETERS UNDER NOISY CONDITIONS |
| Bastiaan Kleijn, Marcin Kuropatwinski, Royal Institute of Technology (KTH), Sweden |
| Top |
| SPEECH-L5: Packet Loss and Channel Coding |
| SPEECH-L5.1: ERROR PROTECTION AND PACKET LOSS CONCEALMENT BASED ON A SIGNAL MATCHED SINUSOIDAL VOCODER |
| Jonas Lindblom, Per Hedelin, Chalmers University of Technology, Sweden |
| SPEECH-L5.2: COMPRESSED DOMAIN PACKET LOSS CONCEALMENT OF SINUSOIDALLY CODED SPEECH |
| Christoffer Asgaard Rødbro, Mads Græsbøll Christensen, Søren Vang Andersen, Søren Holdt Jensen, Aalborg University, Denmark |
| SPEECH-L5.3: IMPROVED PACKET LOSS RECOVERY USING LATE FRAMES FOR PREDICTION-BASED SPEECH CODERS |
| Philippe Gournay, University of Sherbrooke, Canada; Francois Rousseau, VoiceAge Corporation, Canada; Roch Lefebvre, University of Sherbrooke, Canada |
| SPEECH-L5.4: MODEL-BASED PACKET LOSS CONCEALMENT FOR AMR CODERS |
| Costas Xydeas, Fotis Zafeiropoulos, Lancaster University, United Kingdom |
| SPEECH-L5.5: A PACKET LOSS CONCEALMENT ALGORITHM BASED ON TIME-SCALE MODIFICATION FOR CELP-TYPE SPEECH CODERS |
| Moon-Keun Lee, Sung-Kyo Jung, Hong-Goo Kang, Young-Cheol Park, Dae Hee Youn, Yonsei University, Republic of Korea |
| SPEECH-L5.6: JOINT SOURCE-CHANNEL DECODING OF SPEECH SPECTRUM PARAMETERS OVER ERASURE CHANNELS USING GAUSSIAN MIXTURE MODELS |
| Anand Subramaniam, William Gardner, Bhaskar Rao, University of California, San Diego, United States |
| Top |
| SPEECH-L6: Acoustic Modeling: Survey of New Techniques |
| SPEECH-L6.1: RECOGNITION METHOD WITH PARAMETRIC TRAJECTORY GENERATED FROM MIXTURE DISTRIBUTION HMMS |
| Yasuhiro Minami, Erik McDermott, Atsushi Nakamura, Shigeru Katagiri, NTT corporation, Japan |
| SPEECH-L6.2: MAXIMUM MUTUAL INFORMATION SPEAKER-ADAPTED TRAINING WITH SEMI-TIED COVARIANCE MATRICES |
| John McDonough, Alex Waibel, University of Karlsruhe, Germany |
| SPEECH-L6.3: AUTOMATIC COMPLEXITY CONTROL FOR HLDA SYSTEMS |
| Xunying Liu, Mark Gales, Phil Woodland, University of Cambridge, United Kingdom |
| SPEECH-L6.4: DISCRIMINATIVE TRAINING FOR SEGMENTAL MINIMUM BAYES RISK DECODING |
| Vlasios Doumpiotis, Stavros Tsakalidis, William Byrne, The Johns Hopkins University, United States |
| SPEECH-L6.5: HYBRID MODELING OF PHMM AND HMM FOR SPEECH RECOGNITION |
| Tetsuji Ogawa, Tetsunori Kobayashi, Waseda University, Japan |
| SPEECH-L6.6: MULTILINGUAL ARTICULATORY FEATURES |
| Sebastian Stüker, Tanja Schultz, Florian Metze, Alexander Waibel, Interactive Systems Laboratories, United States |
| Top |
| SPEECH-L7: Speech Modelling and Analysis |
| SPEECH-L7.1: MATHEMATICAL MODELS OF VOCAL TRACT WITH DISTRIBUTED SOURCES |
| Ashraf Alkhairy, KACST, Saudi Arabia |
| SPEECH-L7.2: ALL-POLE MODELING OF WIDE-BAND SPEECH WITH SYMMETRIC LINEAR PREDICTION |
| Paavo Alku, Tom Bäckström, Helsinki University of Technology, Finland |
| SPEECH-L7.3: GENERATION OF NASALIZED SPEECH SOUNDS BASED ON BRANCHED TUBE MODELS OBTAINED FROM SEPARATE MOUTH AND NOSE OUTPUTS |
| Karl Schnell, Arild Lacroix, J.W.Goethe-University Frankfurt, Germany |
| SPEECH-L7.4: DECOMPOSITION OF SPEECH INTO VOICED AND UNVOICED COMPONENTS BASED ON A STATE-SPACE SIGNAL MODEL |
| Mark Thomson, Motorola Australian Research Centre, Australia; Simon Boland, Cross Avaya R&D, Australia; Mike Wu, Julien Epps, Motorola Australian Research Centre, Australia; Michael Smithers, Dolby Laboratories, United States |
| SPEECH-L7.5: TIME DELAY ESTIMATION AND ADAPTIVE FRAME LENGTH ITERATIONS FOR NOISE ROBUST PITCH EXTRACTION |
| Ramon Prieto, Sora Kim, Stanford University, United States |
| SPEECH-L7.6: SPECTROGRAM-BASED FORMANT TRACKING VIA PARTICLE FILTERS |
| Yu Shi, Eric Chang, Microsoft Research Asia, China |
| Top |
| SPEECH-L8: New Methods for Speaker Recognition, Segmentation, and Implementation |
| SPEECH-L8.1: UNSUPERVISED SPEAKER INDEXING USING SPEAKER MODEL SELECTION BASED ON BAYESIAN INFORMATION CRITERION |
| Masafumi Nishida, PRESTO, Japan Science and Technology Corporation, Japan; Tatsuya Kawahara, Kyoto University, Japan |
| SPEECH-L8.2: LOCATION BASED SPEAKER SEGMENTATION |
| Guillaume Lathoud, Iain McCowan, IDIAP, Switzerland |
| SPEECH-L8.3: SPEAKER IDENTIFICATION BY ANCHOR MODELS WITH PCA/LDA POST-PROCESSING |
| Yassine Mami, Delphine Charlet, France Télécom R&D, France |
| SPEECH-L8.4: TEMPORAL DECOMPOSITION: A PROMISING APPROACH TO VQ-BASED SPEAKER IDENTIFICATION |
| Phu Chien Nguyen, Masato Akagi, Tu Bao Ho, Japan Advanced Institute of Science and Technology, Japan |
| SPEECH-L8.5: AUTOMATIC SPEAKER RECOGNITION USING DYNAMIC BAYESIAN NETWORK |
| Lifeng Sang, Zhaohui Wu, Yingchun Yang, Wanfeng Zhang, Zhejiang University, China |
| SPEECH-L8.6: COMPARISON OF DISCRIMINATIVE TRAINING METHODS FOR SPEAKER VERIFICATION |
| Chengyuan Ma, Eric Chang, Microsoft Research Asia, China |
| Top |
| SPEECH-L9: Large Vocabulary Speech Recognition |
| SPEECH-L9.1: AUTOMATIC SET-UP FOR SPEECH RECOGNITION ENGINES BASED ON MERIT OPTIMIZATION |
| Gustavo Hernandez-Abrego, Xavier Menendez-Pidal, Sony Electronics Inc., United States; Thomas Kemp, Sony International Europe, Germany; Katsuki Minamino, Helmut Lucke, Sony Corporation, Japan |
| SPEECH-L9.2: TWO-PASS SEARCH STRATEGY FOR LARGE LIST RECOGNITION ON EMBEDDED SPEECH RECOGNITION PLATFORMS |
| Miroslav Novak, IBM T. J. Watson Research Center, United States; Radek Hampl, Pavel Krbec, Vladimir Bergl, Jan Sedivy, IBM, Czech Republic |
| SPEECH-L9.3: ON THE USE OF LATTICES FOR THE AUTOMATIC GENERATION OF PRONUNCIATIONS |
| Sabine Deligne, Lidia Mangu, IBM T. J. Watson Research Center, United States |
| SPEECH-L9.4: PROSODIC KNOWLEDGE SOURCES FOR AUTOMATIC SPEECH RECOGNITION |
| Dimitra Vergyri, Andreas Stolcke, Venkata Gadde, Luciana Ferrer, Elizabeth Shriberg, SRI International, United States |
| SPEECH-L9.5: CONVERSATIONAL TELEPHONE SPEECH RECOGNITION |
| Jean-Luc Gauvain, Lori Lamel, Holger Schwenk, Gilles Adda, Langzhou Chen, Fabrice Lefevre, LIMSI-CNRS, France |
| SPEECH-L9.6: TOWARDS AUTOMATIC TRANSCRIPTION OF LARGE SPOKEN ARCHIVES - ENGLISH ASR FOR THE MALACH PROJECT |
| Bhuvana Ramabhadran, Jing Huang, Michael Picheny, IBM T. J. Watson Research Center, United States |
| Top |
| SPEECH-L10: Unsupervised Language Model Adaptation |
| SPEECH-L10.1: UNSUPERVISED LANGUAGE MODEL ADAPTATION FOR BROADCAST NEWS |
| Langzhou Chen, Jean-Luc Gauvain, Lori Lamel, Gilles Adda, LIMSI-CNRS, France |
| SPEECH-L10.2: UNSUPERVISED LANGUAGE MODEL ADAPTATION |
| Michiel Bacchiani, Brian Roark, AT&T Labs - Research, United States |
| SPEECH-L10.3: LANGUAGE MODEL ADAPTATION USING WFST-BASED SPEAKING-STYLE TRANSLATION |
| Takaaki Hori, Daniel Willett, Yasuhiro Minami, NTT Corporation, Japan |
| SPEECH-L10.4: LANGUAGE MODELING AND TRANSCRIPTION OF THE TED CORPUS LECTURES |
| Erwin Leeuwis, University of Twente, Netherlands; Marcello Federico, Mauro Cettolo, ITC-irst, Italy |
| SPEECH-L10.5: UNSUPERVISED CLASS-BASED LANGUAGE MODEL ADAPTATION FOR SPONTANEOUS SPEECH RECOGNITION |
| Tadasuke Yokoyama, Takahiro Shinozaki, Koji Iwano, Sadaoki Furui, Tokyo Institute of Technology, Japan |
| SPEECH-L10.6: THE ROBUSTNESS OF AN ALMOST-PARSING LANGUAGE MODEL GIVEN ERRORFUL TRAINING DATA |
| Wen Wang, SRI International, United States; Mary Harper, Purdue University, United States; Andreas Stolcke, SRI International, United States |
| Top |
| SPEECH-L11: Speech Synthesis Overview |
| SPEECH-L11.1: UNSUPERVISED, LANGUAGE-INDEPENDENT GRAPHEME--TO--PHONEME CONVERSION BY LATENT ANALOGY |
| Jerome Bellegarda, Apple Computer, Inc., United States |
| SPEECH-L11.2: TOWARDS SPONTANEOUS SPEECH SYNTHESIS - LM BASED SELECTION OF PRONUNCIATION VARIANTS |
| Matthias Eichner, Steffen Werner, Matthias Wolff, Ruediger Hoffmann, Dresden University of Technology, Germany |
| SPEECH-L11.3: CONTEXT-ADAPTIVE PHONE BOUNDARY REFINING FOR A TTS DATABASE |
| Ki-Seung Lee, Konkuk University, Republic of Korea; Jeongsu Kim, Samsung Advanced Institute of Technology, Republic of Korea |
| SPEECH-L11.4: AUDITORY MORPHING BASED ON AN ELASTIC PERCEPTUAL DISTANCE METRIC IN AN INTERFERENCE-FREE TIME-FREQUENCY REPRESENTATION |
| Hideki Kawahara, Hisami Matsui, Wakayama University, Japan |
| SPEECH-L11.5: SPECTRAL MODIFICATON FOR DIGITAL SINGING VOICE SYNTHESIS USING ASYMMETRIC GENERALIZED GAUSSIANS |
| Matthew Lee, Mark J. T. Smith, Georgia Institute of Technology, United States |
| SPEECH-L11.6: MICROSOFT MULAN — A BILINGUAL TTS SYSTEM |
| Min Chu, Hu Peng, Yong Zhao, Zhengyu Niu, Eric Chang, Microsoft Research Asia, China |
| Top |
| SPEECH-L12: Spoken Language Understanding |
| SPEECH-L12.1: HIDDEN VECTOR STATE MODEL FOR HIERARCHICAL SEMANTIC PARSING |
| Yulan He, Steve Young, University of Cambridge, United Kingdom |
| SPEECH-L12.2: TRAINING A PROSODY-BASED DIALOG ACT TAGGER FROM UNLABELED DATA |
| Anand Venkataraman, Luciana Ferrer, Andreas Stolcke, Liz Shriberg, SRI International, United States |
| SPEECH-L12.3: ACTIVE LEARNING FOR SPOKEN LANGUAGE UNDERSTANDING |
| Gokhan Tur, Robert E. Schapire, Dilek Hakkani-Tür, AT&T Labs - Research, United States |
| SPEECH-L12.4: SPEECH UTTERANCE CLASSIFICATION |
| Ciprian Chelba, Milind Mahajan, Alex Acero, Microsoft Research, United States |
| SPEECH-L12.5: CONCEPT ACQUISITION IN EXAMPLE-BASED GRAMMAR AUTHORING |
| Ye-Yi Wang, Alex Acero, Microsoft Research, United States |
| SPEECH-L12.6: GRAPH-BASED REPRESENTATION AND TECHNIQUES FOR NLU APPLICATION DEVELOPMENT |
| Juan Huerta, David Lubensky, IBM T. J. Watson Research Center, United States |
| Top |
| SPEECH-L13: Speaker Adaptation |
| SPEECH-L13.1: PERVASIVE UNSUPERVISED ADAPTATION FOR LECTURE SPEECH TRANSCRIPTION |
| Daniel Willett, Thomas Niesler, Erik McDermott, Yasuhiro Minami, Shigeru Katagiri, NTT Corporation, Japan |
| SPEECH-L13.2: SYMBOLIC SPEAKER ADAPTATION WITH PHONE INVENTORY EXPANSION |
| Kyung-Tak Lee, Institut Eurécom, France; Lynette Melnar, Jim Talley, Motorola Labs, United States; Christian J. Wellekens, Institut Eurécom, France |
| SPEECH-L13.3: FAST SPEAKER ADAPTATION USING TRIPLE DIAGONAL AND SHARED BLOCK DIAGONAL TRANSFORM MATRICES |
| Guo-Hong Ding, Bo Xu, Chinese Academy of Sciences, China; Juha Iso-Sipilä, Yang Cao, Nokia China R&D Center, China |
| SPEECH-L13.4: ONLINE ADAPTATION USING TRANSFORMATION SPACE MODEL EVOLUTION |
| Dong Kook Kim, Young Joon Kim, Woo Hyung Lim, Nam Soo Kim, Seoul National University, Republic of Korea |
| SPEECH-L13.5: DISCRIMINATIVE ACOUSTIC MODEL USING EIGENSPACE MAPPING FOR RAPID SPEAKER ADAPTATION |
| Bowen Zhou, John Hansen, University of Colorado, United States |
| SPEECH-L13.6: DISCRIMINATIVE MAP FOR ACOUSTIC MODEL ADAPTATION |
| Dan Povey, Phil Woodland, Mark Gales, University of Cambridge, United Kingdom |
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| SPEECH-L14: Robust ASR in Mobile and Distributed Environments |
| SPEECH-L14.1: AN EFFICIENT FRAMEWORK FOR ROBUST MOBILE SPEECH RECOGNITION SERVICES |
| Richard Rose, Iker Arizmendi, S. Parthasarathy, AT&T Labs - Research, United States |
| SPEECH-L14.2: USE OF PARALLEL RECOGNIZERS FOR ROBUST IN-CAR SPEECH INTERACTION |
| Luca Cristoforetti, Marco Matassoni, Maurizio Omologo, Piergiorgio Svaizer, ITC-irst, Italy |
| SPEECH-L14.3: IN-CAR SPEECH RECOGNITION USING DISTRIBUTED MICROPHONES - ADAPTING TO AUTOMATICALLY DETECTED DRIVING CONDITIONS - |
| Hideki Banno, Tetsuya Shinde, Kazuya Takeda, Fumitada Itakura, Nagoya University, Japan |
| SPEECH-L14.4: A DISTRIBUTED ARCHITECTURE FOR ROBUST AUTOMATIC SPEECH RECOGNITION |
| Kadri Hacioglu, Bryan Pellom, University of Colorado, Boulder, United States |
| SPEECH-L14.5: FLEXIBLE FEATURE EXTRACTION AND HMM DESIGN FOR A HYBRID DISTRIBUTED SPEECH RECOGNITION SYSTEM IN NOISY ENVIRONMENTS |
| Jan Stadermann, Gerhard Rigoll, Munich University of Technology, Germany |
| SPEECH-L14.6: OOV-DETECTION AND CHANNEL ERROR PROTECTION FOR DISTRIBUTED SPEECH RECOGNITION OVER WIRELESS NETWORKS |
| Zheng-Hua Tan, Paul Dalsgaard, Børge Lindberg, Aalborg University, Denmark |
| Top |
| SPEECH-P1: Language Modelling and Large Vocabulary Recognition |
| SPEECH-P1.1: NON-NATIVE ENGLISH SPEECH RECOGNITION USING BILINGUAL ENGLISH LEXICON AND ACOUSTIC MODELS |
| Shoichi Matsunaga, Atsunori Ogawa, Yoshikazu Yamaguchi, Akihiro Imamura, NTT Cyber Space Labs., Japan |
| SPEECH-P1.2: NOVEL APPROACHES TO ARABIC SPEECH RECOGNITION: REPORT FROM THE 2002 JOHNS-HOPKINS SUMMER WORKSHOP |
| Katrin Kirchhoff, Jeff Bilmes, University of Washington, United States; Sourin Das, The Johns Hopkins University, United States; Nicolae Duta, BBN Technologies, United States; Melissa Egan, Pomona College, United States; Gang Ji, University of Washington, United States; Feng He, Swarthmore COllege, United States; John Henderson, MITRE Corporation, United States; Daben Liu, Mohamed Noamany, BBN Technologies, United States; Pat Schone, US Department of Defense, United States; Richard Schwartz, BBN Technologies, United States; Dimitra Vergyri, SRI International, United States |
| SPEECH-P1.3: DYNAMIC SCHEDULING OF DECODING PROCESSES FOR DIRECTORY ASSISTANCE |
| Renato De Mori, Frederic Bechet, Gerard Subsol, Dominique Massonie, University of Avignon, France |
| SPEECH-P1.4: GENERALIZED OPTIMIZATION ALGORITHM FOR SPEECH RECOGNITION TRANSDUCERS |
| Cyril Allauzen, Mehryar Mohri, AT&T Labs - Research, United States |
| SPEECH-P1.5: A TAIL-SHARING WFST COMPOSITION ALGORITHM FOR LARGE VOCABULARY SPEECH RECOGNITION |
| Diamantino Caseiro, Isabel Trancoso, INESC-ID/IST, Portugal |
| SPEECH-P1.6: CONTEXT-DEPENDENT SEARCH IN A CONTEXT-INDEPENDENT NETWORK |
| Fabio Brugnara, ITC-irst, Centro per la Ricerca Scientifica e Tec., Italy |
| SPEECH-P1.7: THE ICSI MEETING CORPUS |
| Adam Janin, Don Baron, Jane Edwards, International Computer Science Institute, United States; Dan Ellis, Columbia University, United States; David Gelbart, Nelson Morgan, Barbara Peskin, Thilo Pfau, Elizabeth Shriberg, Andreas Stolcke, Chuck Wooters, International Computer Science Institute, United States |
| SPEECH-P1.8: FINITE-STATE TRANSDUCER BASED MODELING OF MORPHOSYNTAX WITH APPLICATIONS TO HUNGARIAN LVCSR |
| Mate Szarvas, Sadaoki Furui, Tokyo Institute of Technology, Japan |
| SPEECH-P1.9: USING A CONNECTIONIST MODEL IN A SYNTACTICAL BASED LANGUAGE MODEL |
| Ahmad Emami, Peng Xu, Frederick Jelinek, The Johns Hopkins University, United States |
| SPEECH-P1.10: SEMANTIC N-GRAM LANGUAGE MODELING WITH THE LATENT MAXIMUM ENTROPY PRINCIPLE |
| Shaojun Wang, Dale Schuurmans, Fuchun Peng, University of Waterloo, Canada; Yunxin Zhao, University of Missouri-Columbia, United States |
| SPEECH-P1.11: MINIMUM VERIFICATION ERROR (MVE) TRAINING FOR TOPIC VERIFICATION |
| Hong-Kwang Jeff Kuo, Bell Labs, Lucent Technologies, United States; Chin-Hui Lee, Georgia Institute of Technology, United States; Imed Zitouni, Eric Fosler-Lussier, Bell Labs, Lucent Technologies, United States |
| SPEECH-P1.12: AUTOMATIC SPEECH SUMMARIZATION BASED ON SENTENCE EXTRACTION AND COMPACTION |
| Tomonori Kikuchi, Sadaoki Furui, Tokyo Institute of Technology, Japan; Chiori Hori, NTT Communication Science Laboratories, Japan |
| SPEECH-P1.13: LOSSLESS COMPRESSION OF LANGUAGE MODEL STRUCTURE AND WORD IDENTIFIERS |
| Bhiksha Raj, Mitsubishi Electric Research Laboratories, United States; Edward Whittaker, Philips Research Laboratories, Germany |
| Top |
| SPEECH-P2: Feature Processing for Robust ASR |
| SPEECH-P2.1: BLIND EQUALIZATION TECHNIQUES FOR ETSI STANDARD DSR FRONT-END |
| Shingo Kuroiwa, Satoru Tsuge, University of Tokushima, Japan |
| SPEECH-P2.2: TRACKING NOISE VIA DYNAMICAL SYSTEMS WITH A CONTINUUM OF STATES |
| Rita Singh, Carnegie Mellon University, United States; Bhiksha Raj, Mitsubishi Electric Research Laboratories, United States |
| SPEECH-P2.3: DATA-DRIVEN TEMPORAL FILTERS BASED ON MULTI-EIGENVECTORS FOR ROBUST FEATURES IN SPEECH RECOGNITION |
| Ni-chun Wang, National Taiwan University, Taiwan; Jeih-weih Hung, National Chi-Nan University, Taiwan; Lin-shan Lee, National Taiwan University, Taiwan |
| SPEECH-P2.4: PERCEPTUALLY NON-UNIFORM SPECTRAL COMPRESSION FOR NOISY SPEECH RECOGNITION |
| Kam-keung Chu, Shu-hung Leung, Chun-sing Yip, City University of Hong Kong, Hong Kong SAR of China |
| SPEECH-P2.5: SUBBAND PARAMETER OPTIMIZATION OF MICROPHONE ARRAYS FOR SPEECH RECOGNITION IN REVERBERANT ENVIRONMENTS |
| Michael Seltzer, Richard Stern, Carnegie Mellon University, United States |
| SPEECH-P2.6: SEQUENTIAL MAP ESTIMATION BASED SPEECH FEATURE ENHANCEMENT FOR NOISE ROBUST SPEECH RECOGNITION |
| Chuan Jia, Peng Ding, Bo Xu, Chinese Academy of Sciences, China |
| SPEECH-P2.7: RELIABILITY-BASED ESTIMATION OF THE NUMBER OF NOISY FEATURES: APPLICATION TO MODEL-ORDER SELECTION IN THE UNION MODELS |
| Peter Jancovic, Munevver Kokuer, Fionn Murtagh, Queen's University Belfast, United Kingdom |
| SPEECH-P2.8: A POSTERIOR UNION MODEL FOR IMPROVED ROBUST SPEECH RECOGNITION IN NONSTATIONARY NOISE |
| Ji Ming, Jack Smith, Queen's University Belfast, United Kingdom |
| SPEECH-P2.9: USING SPEECH/NON-SPEECH DETECTION TO BIAS RECOGNITION SEARCH ON NOISY DATA |
| Francoise Beaufays, Daniel Boies, Mitch Weintraub, Nuance Communications, United States; Qifeng Zhu, ICSI, United Kingdom |
| SPEECH-P2.10: ENDPOINT DETECTION IN NOISY ENVIRONMENT USING A POINCARÉ RECURRENCE METRIC |
| Lingyun Gu, Jianbo Gao, John Harris, University of Florida, United States |
| SPEECH-P2.11: ROBUST SPEECH DETECTION AND SEGMENTATION FOR REAL-TIME ASR APPLICATIONS |
| Izhak Shafran, Richard Rose, AT&T Labs - Research, United States |
| SPEECH-P2.12: OPTIMIZING SPEECH/NON-SPEECH CLASSIFIER DESIGN USING ADABOOST |
| Oh-Wook Kwon, Te-Won Lee, University of California, San Diego, United States |
| Top |
| SPEECH-P3: Speech Analysis |
| SPEECH-P3.1: GENERALIZED LIKELIHOOD RATIO TEST FOR VOICED / UNVOICED DECISION USING THE HARMONIC PLUS NOISE MODEL |
| Etan Fisher, Joseph Tabrikian, Shlomo Dubnov, Ben-Gurion University, Israel |
| SPEECH-P3.2: FUZZY CLUSTERING AND BAYESIAN INFORMATION CRITERION BASED THRESHOLD ESTIMATION FOR ROBUST VOICE ACTIVITY DETECTION |
| Tian Ye, Ji Wu, Zuoying Wang, Dajin Lu, Tsinghua University, China |
| SPEECH-P3.3: A MEASURE OF APERIODICITY AND PERIODICITY IN SPEECH |
| Om Deshmukh, Carol Espy-Wilson, University of Maryland, United States |
| SPEECH-P3.4: A GENERATIVE MODEL OF FUNDAMENTAL FREQUENCY CONTOURS FOR POLYSYLLABIC WORDS OF THAI TONES |
| Pusadee Seresangtakul, Tomio Takara, University of the Ryukyus, Japan |
| SPEECH-P3.5: F0 PERTURBATIONS BY CONSONANTS AND THEIR IMPLICATIONS ON TONE RECOGNITION |
| Ching X. Xu, Northwestern University, United States; Yi Xu, University of Chicago, United States |
| SPEECH-P3.6: GRADIENT-DESCENT BASED WINDOW OPTIMIZATION FOR LINEAR PREDICTION ANALYSIS |
| Wai Chu, DoCoMo USA Labs, United States |
| SPEECH-P3.7: AN EXPECTATION MAXIMIZATION APPROACH FOR FORMANT TRACKING USING A PARAMETER-FREE NON-LINEAR PREDICTOR |
| Issam Bazzi, Alex Acero, Li Deng, Microsoft Research, United States |
| SPEECH-P3.8: SPEECH SEGMENTATION WITHOUT SPEECH RECOGNITION |
| Dong Wang, Tsinghua University, China; Lie Lu, Hong-Jiang Zhang, Microsoft Research Asia, China |
| SPEECH-P3.9: EVALUATION OF CHINESE ASPIRATION SOUNDS UTTERED BY JAPANESE STUDENTS USING VOT AND POWER |
| Akemi Hoshino, Toyama National College of Maritime Technolaogy, Japan; Akio Yasuda, Tokyo University of Mercantile Marine, Japan |
| SPEECH-P3.10: OUTPUT-BASED OBJECTIVE SPEECH QUALITY MEASURE USING SELF-ORGANIZING MAP |
| D. Picovici, A.E. Mahdi, University of Limerick, Ireland |
| SPEECH-P3.11: AN INFORMATION-THEORETIC ANALYSIS OF DEVELOPMENTAL CHANGES IN SPEECH |
| Serdar Yildirim, Shrikanth S. Narayanan, University of Southern California, United States |
| SPEECH-P3.12: APPLICATION OF SPEECH RECOGNITION TO AFRICAN ELEPHANT (LOXODONTA AFRICANA) VOCALIZATIONS |
| Patrick Clemins, Michael Johnson, Marquette University, United States |
| Top |
| SPEECH-P4: Speech Synthesis: Prosody |
| SPEECH-P4.1: AN EFFICIENT TEXT ANALYZER WITH PROSODY GENERATOR-DRIVEN APPROACH FOR MANDARIN TEXT-TO-SPEECH |
| Shaw-Hwa Hwang, Cheng-Yu Yeh, National Taipei University of Technology, Taiwan |
| SPEECH-P4.2: CHINESE PROSODIC PHRASING WITH EXTENDED FEATURES |
| Sheng Zhao, Jianhua Tao, DanLing Jiang, Tsinghua University, China |
| SPEECH-P4.3: A MANDARIN INTONATION PREDICTION MODEL THAT CAN OUTPUT REAL PITCH PATTERNS |
| Neng-Huang Pan, Ming-Shing Yu, Ming-Jer Wu, National Chung-Hsing University, Taiwan |
| SPEECH-P4.4: AUDITIVE LEARNING BASED CHINESE F0 PREDICTION |
| Jianhua Tao, Chinese Academy of Sciences, China; Xing Ni, Tsinghua University, China |
| SPEECH-P4.5: PRECISE TONE GENERATION FOR VIETNAMESE TEXT-TO-SPEECH SYSTEM |
| Tu Do, Tomio Takara, University of the Ryukyus, Japan |
| SPEECH-P4.6: TRAINABLE CANTONESE/ENGLISH DUAL LANGUAGE SPEECH SYNTHESIS SYSTEM |
| Haiping Li, Fangxin Chen, Liqin Shen, Xijun Ma, IBM China Research Lab, China |
| SPEECH-P4.7: A HIGH-PERFORMANCE MIN-NAN/TAIWANESE TTS SYSTEM |
| Wei-Chi Kuo, Xiang-Rui Zhong, Yih-Ru Wang, Sin-Horng Chen, National Chiao Tung University, Taiwan |
| SPEECH-P4.8: AUTOMATIC PROSODY LABELING USING BOTH TEXT AND ACOUSTIC INFORMATION |
| Xijun Ma, Wei Zhang, Qin Shi, Weibin Zhu, Liqin Shen, IBM China Research Lab, China |
| SPEECH-P4.9: INVERSION OF F0 MODEL FOR NATURAL-SOUNDING SPEECH SYNTHESIS |
| Pierluigi Salvo Rossi, Università di Napoli ''Federico II'', Italy; Francesco Palmieri, Seconda Università di Napoli, Italy; Francesco Cutugno, Università di Napoli ''Federico II'', Italy |
| SPEECH-P4.10: PARAMETER EXTRACTION OF A QUANTITATIVE INTONATION MODEL WITH WAVELET ANALYSIS AND EVOLUTIONARY OPTIMIZATION |
| Hans Kruschke, Andreas Koch, Dresden University of Technology, Germany |
| SPEECH-P4.11: PROSODIC MANIPULATION USING INSTANTS OF SIGNIFICANT EXCITATION |
| K. Sreenivasa Rao, B. Yegnanarayana, Indian Institute of Technology, Madras, India |
| SPEECH-P4.12: A MULTILINGUAL TTS SYSTEM WITH LESS THAN 1 MBYTE FOOTPRINT FOR EMBEDDED APPLICATIONS |
| Ruediger Hoffmann, Oliver Jokisch, TU Dresden, Germany; Diane Hirschfeld, voiceINTERconnect GmbH, Germany; Guntram Strecha, Hans Kruschke, Ulrich Kordon, TU Dresden, Germany; Uwe Koloska, voiceINTERconnect GmbH, Germany |
| Top |
| SPEECH-P5: Acoustic Adaptation Techniques |
| SPEECH-P5.1: PORTING: SWITCHBOARD TO THE VOICEMAIL TASK |
| Mark Gales, Yuan Dong, Dan Povey, Phil Woodland, University of Cambridge, United Kingdom |
| SPEECH-P5.2: COMPARISON OF ACOUSTIC MODEL ADAPTATION TECHNIQUES ON NON-NATIVE SPEECH |
| Zhirong Wang, Tanja Schultz, Alex Waibel, Carnegie Mellon University, United States |
| SPEECH-P5.3: ABOUT IMPROVING RECOGNITION OF SPONTANEOUSLY UTTERED FRENCH CITY-NAMES |
| Denis Jouvet, Katarina Bartkova, Lionel Delphin-Poulat, Alexandre Ferrieux, Xavier Lamming, Jean Monné, Christophe Raix, France Télécom R&D, China |
| SPEECH-P5.4: IMPROVEMENTS IN SPEAKER ADAPTATION USING WEIGHTED TRAINING |
| Gyucheol Jang, Sooyoung Woo, Minho Jin, Chang D. Yoo, Korea Advanced Institute of Science and Technology, Republic of Korea |
| SPEECH-P5.5: OPTIMAL CLUSTERING OF MULTIVARIATE NORMAL DISTRIBUTIONS USING DIVERGENCE AND ITS APPLICATION TO HMM ADAPTATION |
| Tor Andre Myrvoll, Frank K. Soong, Bell Labs, Lucent Technologies, United States |
| SPEECH-P5.6: MINIMUM CLASSIFICATION ERROR LINEAR REGRESSION FOR ACOUSTIC MODEL ADAPTATION OF CONTINUOUS DENSITY HMMS |
| Xiaodong He, University of Missouri-Columbia, United States; Wu Chou, Avaya Labs Research, United States |
| SPEECH-P5.7: A METHOD FOR COMPENSATION OF JACOBIAN IN SPEAKER NORMALIZATION |
| Rohit Sinha, S. Umesh, Indian Institute of Technology, India |
| SPEECH-P5.8: TEMPORAL STRUCTURE CONSTRAINED TRANSFORMATION FOR SPEAKER ADAPTATION |
| Eric Choi, Trym Holter, Julien Epps, Arun Gopalakrishnan, Motorola Australian Research Centre, Australia |
| SPEECH-P5.9: APPLICATION OF VARIATIONAL BAYESIAN ESTIMATION AND CLUSTERING TO ACOUSTIC MODEL ADAPTATION |
| Shinji Watanabe, Yasuhiro Minami, Atsushi Nakamura, Naonori Ueda, NTT Corporation, Japan |
| SPEECH-P5.10: ONLINE SPEAKER CLUSTERING |
| Daben Liu, Francis Kubala, BBN Technologies, United States |
| SPEECH-P5.11: SPEAKER ADAPTATION BY HIERARCHICAL EIGENVOICE |
| Yoshifumi Onishi, Ken-ichi Iso, NEC Corporation, Japan |
| SPEECH-P5.12: COMBINING EIGENVOICES AND STRUCTURAL MLLR FOR SPEAKER ADAPTATION |
| Fabrice Lauri, Irina Illina, Dominique Fohr, LORIA-INRIA, France |
| Top |
| SPEECH-P6: Spoken Language Systems and Confidence Measures |
| SPEECH-P6.1: UTTERANCE VERIFICATION BASED ON STATISTICS OF PHONE-LEVEL CONFIDENCE SCORES |
| Ananth Sankar, Su-Lin Wu, Nuance Communications, United States |
| SPEECH-P6.2: CONFIDENCE MEASURES FOR KEYWORD SPOTTING USING SUPORT VECTOR MACHINES |
| Yassine Benayed, Dominique Fohr, Jean Paul Haton, LORIA, France; Gérard Chollet, ENST CNRS-LTCI, France |
| SPEECH-P6.3: IMPROVING UTTERANCE VERIFICATION USING A SMOOTHED NAIVE BAYES MODEL |
| Alberto Sanchis, Alfons Juan, Enrique Vidal, Politechnic University, Valencia, Spain |
| SPEECH-P6.4: A GENERAL ALGORITHM FOR WORD GRAPH MATRIX DECOMPOSITION |
| Dilek Hakkani-Tür, Giuseppe Riccardi, AT&T Labs - Research, United States |
| SPEECH-P6.5: PHONE LEVEL CONFIDENCE MEASURE USING ARTICULATORY FEATURES |
| Ka Yee Leung, Man-Hung Siu, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| SPEECH-P6.6: WORD LEVEL CONFIDENCE MEASUREMENT USING SEMANTIC FEATURES |
| Ruhi Sarikaya, Yuqing Gao, Michael Picheny, IBM T. J. Watson Research Center, United States |
| SPEECH-P6.7: A PROSODY-BASED APPROACH TO END-OF-UTTERANCE DETECTION THAT DOES NOT REQUIRE SPEECH RECOGNITION |
| Luciana Ferrer, Elizabeth Shriberg, Andreas Stolcke, Speech Technology and Research Laboratory, United States |
| SPEECH-P6.8: A COMPARISON OF LANGUAGE PROCESSING TECHNIQUES FOR A CONSTRAINED SPEECH TRANSLATION SYSTEM |
| Mike Lincoln, Stephen Cox, University of East Anglia, United Kingdom |
| SPEECH-P6.9: LANGUAGE MODEL SWITCHING BASED ON TOPIC DETECTION FOR DIALOG SPEECH RECOGNITION |
| Ian Richard Lane, Tatsuya Kawahara, Kyoto University, Japan; Tomoko Matsui, ATR, Japan |
| SPEECH-P6.10: DISCRIMINATIVE TECHNIQUES IN CALL ROUTING |
| Stephen Cox, University of East Anglia, United Kingdom |
| SPEECH-P6.11: DERIVING DISAMBIGUOUS QUERIES IN A SPOKEN INTERACTIVE ODQA SYSTEM |
| Chiori Hori, Takaaki Hori, Hideki Isozaki, Eisaku Maeda, Shigeru Katagiri, NTT Corporation, Japan; Sadaoki Furui, Tokyo Institute of Technology, Japan |
| SPEECH-P6.12: LATTICE KERNELS FOR SPOKEN-DIALOG CLASSIFICATION |
| Corinna Cortes, Patrick Haffner, Mehryar Mohri, AT&T Labs - Research, United States |
| SPEECH-P6.13: OPTIMIZING SVMS FOR COMPLEX CALL CLASSIFICATION |
| Patrick Haffner, Gokhan Tur, Jerry Wright, AT&T Labs - Research, United States |
| SPEECH-P6.14: USE OF STATISTICAL N-GRAM MODELS IN NATURAL LANGUAGE GENERATION FOR MACHINE TRANSLATION |
| Fu-Hua Liu, Liang Gu, Yuqing Gao, Michael Picheny, IBM T. J. Watson Research Center, United States |
| Top |
| SPEECH-P7: Speech Enhancement including Applications to Robust ASR |
| SPEECH-P7.1: COMBINING NEIGHBORING FILTER CHANNELS TO IMPROVE QUANTILE BASED HISTOGRAM EQUALIZATION |
| Florian Hilger, Hermann Ney, Aachen University (RWTH), Germany; Olivier Siohan, Frank K. Soong, Bell Labs, Lucent Technologies, United States |
| SPEECH-P7.2: PERCEPTUAL MVDR-BASED CEPSTRAL COEFFICIENTS (PMCCS) FOR ROBUST SPEECH RECOGNITION |
| Umit Yapanel, University of Colorado, Boulder, United States; Satya Dharanipragada, IBM T. J. Watson Research Center, United States |
| SPEECH-P7.3: A NOVEL SPECTRAL SUBTRACTION SCHEME FOR ROBUST SPEECH RECOGNITON: SPECTRAL SUBTRACTION USING SPECTRAL HARMONICS OF SPEECH |
| Jounghoon Beh, Hanseok Ko, Korea University, Republic of Korea |
| SPEECH-P7.4: ON-LINE FRAME-SYNCHRONOUS COMPENSATION OF NON-STATIONARY NOISE |
| Vincent Barreaud, Irina Illina, Dominique Fohr, LORIA, France |
| SPEECH-P7.5: FEATURE SPACE NORMALIZATION IN ADVERSE ACOUSTIC CONDITIONS |
| Sirko Molau, Florian Hilger, Hermann Ney, Aachen University (RWTH), Germany |
| SPEECH-P7.6: MODEL-SPACE COMPENSATION OF MICROPHONE AND NOISE FOR SPEAKER-INDEPENDENT SPEECH RECOGNITION |
| Yifan Gong, Texas Instruments, United States |
| SPEECH-P7.7: MULTI-CHANNEL SOURCE SEPRATION BY FACTORIAL HMMS |
| Manuel Reyes, Columbia University, United States; Bhiksha Raj, Mitsubishi Electric Research Laboratories, United States; Dan Ellis, Columbia University, United States |
| SPEECH-P7.8: AN EVALUATION OF ADAPTIVE BEAMFORMER BASED ON AVERAGE SPEECH SPECTRUM FOR NOISY SPEECH RECOGNITION |
| Takanobu Nishiura, ATR, Japan; Masato Nakayama, Wakayama University, Japan; Satoshi Nakamura, ATR, Japan |
| SPEECH-P7.9: INCREMENTAL BAYES LEARNING WITH PRIOR EVOLUTION FOR TRACKING NONSTATIONARY NOISE STATISTICS FROM NOISY SPEECH DATA |
| Li Deng, Jasha Droppo, Alex Acero, Microsoft, United States |
| SPEECH-P7.10: STRATEGIES FOR IMPROVING AUDIBLE QUALITY AND SPEECH RECOGNITION ACCURACY OF REVERBERANT SPEECH |
| Bradford Gillespie, Les Atlas, University of Washington, United States |
| SPEECH-P7.11: ARTIFICIAL BANDWIDTH EXTENSION OF SPEECH SIGNALS USING MMSE ESTIMATION BASED ON A HIDDEN MARKOV MODEL |
| Peter Jax, Peter Vary, Aachen University (RWTH), Germany |
| SPEECH-P7.12: ROBUST DIGIT RECOGNITION USING PHASE-DEPENDENT TIME-FREQUENCY MASKING |
| Guangji Shi, Parham Aarabi, University of Toronto, Canada |
| Top |
| SPEECH-P8: Speech Synthesis: Segmental Modelling and Processing |
| SPEECH-P8.1: SYLLABLE CLUSTERING AND SPECTRAL DISCONTINUITY IN SYLLABLE-BASED TTS SYSTEMS |
| Fangxin Chen, IBM China Research Lab., China |
| SPEECH-P8.2: A METHOD OF UNIT PRE-SELECTION FOR SPEECH SYNTHESIS BASED ON ACOUSTIC CLUSTERING AND DECISION TREES |
| Christophe Blouin, Paul Bagshaw, Olivier Rosec, France Télécom R&D, France |
| SPEECH-P8.3: SEGMENT SELECTION CONSIDERING LOCAL DEGRADATION OF NATURALNESS IN CONCATENATIVE SPEECH SYNTHESIS |
| Tomoki Toda, Hisashi Kawai, Minoru Tsuzaki, ATR, Japan; Kiyohiro Shikano, Nara Institute of Science and Technology, Japan |
| SPEECH-P8.4: HIGH QUALITY TIME-SCALE MODIFICATION OF SPEECH USING A PEAK ALIGNMENT OVERLAP-ADD ALGORITHM (PAOLA) |
| David Dorran, Dublin Institute of Technology, Ireland; Robert Lawlor, National University of Ireland, Ireland; Eugene Coyle, Dublin Institute of Technology, Ireland |
| SPEECH-P8.5: CLEAN SPEECH RECONSTRUCTION FROM NOISY MEL-FREQUENCY CEPSTRAL COEFFICIENTS USING A SINUSOIDAL MODEL |
| Xu Shao, Ben Milner, University of East Anglia, United Kingdom |
| SPEECH-P8.6: RECENT IMPROVEMENTS TO THE IBM TRAINABLE SPEECH SYNTHESIS SYSTEM |
| Ellen Eide, A. Aaron, R. Bakis, P. Cohen, R. Donovan, W. Hamza, T. Mathes, Michael Picheny, IBM T. J. Watson Research Center, United States; M. Polkosky, M. Smith, IBM, Boca Raton, United States; M. Viswanathan, IBM T. J. Watson Research Center, United States |
| SPEECH-P8.7: ANALYSIS, MODELLING AND SYNTHESIS OF FORMANTS OF BRITISH, AMERICAN AND AUSTRALIAN ACCENTS |
| Qin Yan, Saeed Vaseghi, Brunel University, United Kingdom |
| SPEECH-P8.8: A TRAINING METHOD FOR AVERAGE VOICE MODEL BASED ON SHARED DECISION TREE CONTEXT CLUSTERING AND SPEAKER ADAPTIVE TRAINING |
| Junichi Yamagishi, Takashi Masuko, Tokyo Institute of Technology, Japan; Keiichi Tokuda, Nagoya Institute of Technology, Japan; Takao Kobayashi, Tokyo Institute of Technology, Japan |
| SPEECH-P8.9: USING PHONE AND DIPHONE BASED ACOUSTIC MODELS FOR VOICE CONVERSION: A STEP TOWARDS CREATING VOICE FONTS |
| Arun Kumar, Indian Institute of Technology, New Delhi, India; Ashish Verma, IBM India Research Lab, India |
| SPEECH-P8.10: EVALUATION OF METHODS FOR PARAMETERIC FORMANT TRANSFORMATION IN VOICE CONVERSION |
| Emir Turajlic, Dimitrios Rentzos, Saeed Vaseghi, Brunel University, United Kingdom; Ching-Hsiang Ho, Fortune Institute of Technology, Taiwan |
| SPEECH-P8.11: AN ADVANCED TEXT-TO-SPEECH SERVER SYSTEM BASED ON SOAP PROTOCOL |
| Yingying Xu, Hao Tang, Peiren Zhang, University of Science and Technology of China, China |
| SPEECH-P8.12: STUDY ON DISTRIBUTED SPEECH SYNTHESIS SYSTEM |
| Hao Tang, Bo Yin, Ren-Hua Wang, University of Science and Technology of China, China |
| Top |
| SPEECH-P9: Acoustic Modeling of Coarticulation, Lexical and Task Information |
| SPEECH-P9.1: A PHONE RECOGNIZER HELPS TO RECOGNIZE WORDS BETTER |
| Georg Stemmer, Viktor Zeissler, Christian Hacker, Elmar Nöth, Heinrich Niemann, Universität Erlangen-Nürnberg, Germany |
| SPEECH-P9.2: SPEECH RECOGNITION USING VOICE-CHARACTERISTIC-DEPENDENT ACOUSTIC MODELS |
| Hiroyuki Suzuki, Heiga Zen, Yoshihiko Nankaku, Chiyomi Miyajima, Keiichi Tokuda, Tadashi Kitamura, Nagoya Institute of Technology, Japan |
| SPEECH-P9.3: COARTICULATION MODELING BY EMBEDDING A TARGET-DIRECTED HIDDEN TRAJECTORY MODEL INTO HMM -- MODEL AND TRAINING |
| Jian-Lai Zhou, Frank Seide, Microsoft Research Asia, China; Li Deng, Microsoft Research, United States |
| SPEECH-P9.4: COARTICULATION MODELING BY EMBEDDING A TARGET-DIRECTED HIDDEN TRAJECTORY MODEL INTO HMM -- MAP DECODING AND EVALUATION |
| Frank Seide, Jian-Lai Zhou, Microsoft Research Asia, China; Li Deng, Microsoft Research, United States |
| SPEECH-P9.5: ACOUTSIC SEGMENTAION USING SWITCHING STATE KALMAN FILTER |
| Yanli Zheng, Mark Hasegawa-Johnson, University of Illinois, Urbana-Champaign, United States |
| SPEECH-P9.6: AN EFFICIENT INCREMENTAL LIKELIHOOD EVALUATION FOR POLYNOMIAL TRAJECTORY MODEL USING WITH APPLICATION TO MODEL TRAINING AND RECOGNITION |
| Chak-Fai Li, Man-Hung Siu, HKUST, Hong Kong SAR of China |
| SPEECH-P9.7: TRIPHONE MODEL RECONSTRUCTION FOR MANDARIN PRONUNCIATION VARIATIONS |
| Pascale Fung, Hong Kong University of Science and Tehcnology, Hong Kong SAR of China; Yi Liu, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| SPEECH-P9.8: PRONUNCIATION VARIATION SPEECH RECOGNITION WITHOUT DICTIONARY MODIFICATION ON SPARSE DATABASE |
| Supphanat Kanokphara, Virongrong Tesprasit, Rachod Thongprasirt, NECTEC, Thailand |
| SPEECH-P9.9: AUTOMATIC SYLLABIFICATION USING HIERARCHICAL HIDDEN MARKOV MODELS |
| Pieter Nel, Flextronics SA, South Africa; Johan Du Preez, University of Stellenbosch, South Africa |
| SPEECH-P9.10: SPLIT-LEXICON BASED HIERARCHICAL RECOGNITION OF SPEECH USING SYLLABLE AND WORD LEVEL ACOUSTIC UNITS |
| Abhinav Sethy, Shrikanth S. Narayanan, University of Southern California, United States |
| SPEECH-P9.11: A MULTILEVEL FRAMEWORK TO MODEL THE INHERENTLY CONFOUNDING NATURE OF SENTENTIAL F0 CONTOURS FOR RECOGNIZING CHINESE LEXICAL TONES |
| Jin-Song Zhang, ATR, Japan; Keikichi Hirose, University of Tokyo, Japan; Satoshi Nakamura, ATR, Japan |
| SPEECH-P9.12: MULTIPLE TASK-DOMAIN ACOUSTIC MODELS |
| Andrej Ljolje, AT&T Labs - Research, United States |
| Top |
| SPEECH-P10: Speech Coding and Speech Analysis |
| SPEECH-P10.1: HARMONIC EXCITATION LPC (HE-LPC) SPEECH CODING AT 2.3 KB/S |
| Changchun Bao, Beijing University of Technology, China |
| SPEECH-P10.2: COMPLEXITY REDUCED SHAPE VQ OF SPECTRAL ENVELOPE WITH PERCEPTION CONSIDERATION |
| Mu-Liang Wang, Jar-Ferr Yang, National Cheng Kung University, Taiwan |
| SPEECH-P10.3: CORPUS BASED VERY LOW BIT RATE SPEECH CODING |
| Geneviève Baudoin, Fadi El Chami, ESIEE, France |
| SPEECH-P10.4: MIXED-EXCITED PHONETIC VOCODING AT 265 BPS |
| Ranniery Maia, Ricardo Cirigliano, Daniel Rojtenberg, Fernando Resende, Federal University of Rio de Janeiro, Brazil |
| SPEECH-P10.5: IMPROVING THE PERFORMANCE OF HMM-BASED VERY LOW BITRATE SPEECH CODING |
| Takahiro Hoshiya, Shinji Sako, Heiga Zen, Keiichi Tokuda, Nagoya Institute of Technology, Japan; Takashi Masuko, Takao Kobayashi, Tokyo Institute of Technology, Japan; Tadashi Kitamura, Nagoya Institute of Technology, Japan |
| SPEECH-P10.6: LOW BIT RATE WIDEBAND WI SPEECH CODING |
| Christian Ritz, Ian Burnett, Jason Lukasiak, Whisper Labs, University of Wollongong, Australia |
| SPEECH-P10.7: A FRACTAL BASED VOICE ACTIVITY DETECTOR FOR INTERNET TELEPHONE |
| Su Yang, Zong-Ge Li, Yan-Qiu Chen, Fudan University, China |
| SPEECH-P10.8: IFAS-BASED VOICED/UNVOICED CLASSIFICATION OF SPEECH SIGNAL |
| Dhany Arifianto, Takao Kobayashi, Tokyo Institute of Technology, Japan |
| SPEECH-P10.9: A LINKED-HMM MODEL FOR ROBUST VOICING AND SPEECH DETECTION |
| Sumit Basu, Microsoft Research, United States |
| SPEECH-P10.10: VOICED/UNVOICED SPEECH DISCRIMINATION IN NOISE USING GABOR ATOMIC DECOMPOSITION |
| Arthur Lobo, Philipos Loizou, University of Texas, Dallas, United States |
| SPEECH-P10.11: ILL-CONDITIONING AND BANDWIDTH EXPANSION IN LINEAR PREDICTION OF SPEECH |
| Peter Kabal, McGill University, Canada |
| SPEECH-P10.12: DISCRETE WEIGHTED MEAN SQUARE ALL-POLE MODELING |
| Davor Petrinovic, University of Zagreb, Croatia |
| Top |
| SPEECH-P11: Speech Enhancement II |
| SPEECH-P11.1: MULTICHANNEL SPEECH ENHANCEMENT USING BAYESIAN SPECTRAL AMPLITUDE ESTIMATION |
| Thomas Lotter, Aachen University (RWTH), Germany; Christian Benien, IND, Germany; Peter Vary, Aachen University (RWTH), Germany |
| SPEECH-P11.2: SPEECH ENHANCEMENT USING BLIND SOURCE SEPARATION AND TWO-CHANNEL ENERGY BASED SPEAKER DETECTION |
| Erik Visser, Te-Won Lee, University of California, San Diego, United States |
| SPEECH-P11.3: A METHOD BASED ON THE MTF CONCEPT FOR DEREVERBERATING THE POWER ENVELOPE FROM THE REVERBERANT SIGNAL |
| Masashi Unoki, Masakazu Furukawa, Keigo Sakata, Masato Akagi, Japan Advanced Institute of Science and Technology, Japan |
| SPEECH-P11.4: A ONE-MICROPHONE ALGORITHM FOR REVERBERANT SPEECH ENHANCEMENT |
| Mingyang Wu, DeLiang Wang, Ohio State University, United States |
| SPEECH-P11.5: MMSE ESTIMATION OF MAGNITUDE-SQUARED DFT COEFFICIENTS WITH SUPERGAUSSIAN PRIORS |
| Colin Breithaupt, Rainer Martin, Technical University of Braunschweig, Germany |
| SPEECH-P11.6: ADAPTIVE BETA-ORDER MMSE ESTIMATION FOR SPEECH ENHANCEMENT |
| Chang Huai You, Institute for Infocomm Research, Singapore; Soo Ngee Koh, Nanyang Technological University, Singapore; Susanto Rahardja, Institute for Infocomm Research, Singapore |
| SPEECH-P11.7: DOUBLE AFFINE PROJECTION ALGORITHM-BASED SPEECH ENHANCEMENT ALGORITHM |
| Marcel Gabrea, École de Technologie Supérieure, Canada |
| SPEECH-P11.8: SPEECH ENHANCEMENT BASED ON THE GENERAL TRANSFER FUNCTION GSC AND POSTFILTERING |
| Sharon Gannot, Israel Cohen, Technion - Israel Institute of Technology, Israel |
| SPEECH-P11.9: A DUAL KALMAN FILTER-BASED SMOOTHER FOR SPEECH ENHANCEMENT |
| Hong Cai, Eric Grivel, Mohamed Najim, ESI, UMR LAP5131, ENSEIRB-Université Bordeaux 1, France |
| SPEECH-P11.10: A FAMILY OF 3GPP-STANDARD NOISE SUPPRESSORS FOR THE AMR CODEC AND THE EVALUATION RESULTS |
| Masanori Kato, Akihiko Sugiyama, Masahiro Serizawa, NEC Corporation, Japan |
| SPEECH-P11.11: PERFORMANCE OF NONLINEAR SPEECH ENHANCEMENT USING PHASE SPACE RECONSTRUCTION |
| Michael Johnson, Andrew Lindgren, Richard Povinelli, Xiaolong Yuan, Marquette University, United States |
| SPEECH-P11.12: INTELLIGIBILITY OF MODIFICATIONS TO DYSARTHRIC SPEECH |
| John-Paul Hosom, Alexander Kain, Taniya Mishra, Jan van Santen, Melanie Fried-Oken, Janice Staehely, Oregon Health & Science University, United States |
| Top |
| SPEECH-P12: Feature-Oriented Acoustic Modeling |
| SPEECH-P12.1: TRAINING OF STREAM WEIGHTS FOR THE DECODING OF SPEECH USING PARALLEL FEATURE STREAMS |
| Xiang Li, Richard Stern, Carnegie Mellon University, United States |
| SPEECH-P12.2: DBN BASED MULTI-STREAM MODELS FOR SPEECH |
| Yimin Zhang, Qian Diao, Shan Huang, Wei Hu, Intel China Research Center, China; Chris Bartels, Jeff Bilmes, University of Washington, United States |
| SPEECH-P12.3: HYBRID HMM/BN LVCSR SYSTEM INTEGRATING MULTIPLE ACOUSTIC FEATURES |
| Konstantin Markov, Satoshi Nakamura, ATR, Japan |
| SPEECH-P12.4: PRODUCT OF GAUSSIANS AND MULTIPLE STREAM SYSTEMS |
| Sarah Airey, Mark Gales, University of Cambridge, United Kingdom |
| SPEECH-P12.5: MAXIMUM LIKELIHOOD TRAINING OF SUBSPACES FOR INVERSE COVARIANCE MODELING |
| Karthik Visweswariah, Peder Olsen, Ramesh Gopinath, Scott Axelrod, IBM T. J. Watson Research Center, United States |
| SPEECH-P12.6: MIXTURES OF INVERSE COVARIANCES |
| Vincent Vanhoucke, Stanford University, United States; Ananth Sankar, Nuance Communications, United States |
| SPEECH-P12.7: COVARIANCE AND PRECISION MODELING IN SHARED MULTIPLE SUBSPACES |
| Satya Dharanipragada, Karthik Visweswariah, IBM T. J. Watson Research Center, United States |
| SPEECH-P12.8: COMPARISON AND STUDY OF SOME VARIANTS OF PARTIALLY TIED COVARIANCE MODELING |
| Peng Ding, Shuwu Zhang, Bo Xu, Chinese Academy of Sciences, China |
| SPEECH-P12.9: DIMENSIONAL REDUCTION, COVARIANCE MODELING, AND COMPUTATIONAL COMPLEXITY IN ASR SYSTEMS |
| Scott Axelrod, Ramesh Gopinath, Peder Olsen, Karthik Visweswariah, IBM, United States |
| SPEECH-P12.10: OPTIMIZING FEATURES AND MODELS USING THE MINIMUM CLASSIFICATION ERROR CRITERION |
| Alain Biem, IBM T. J. Watson Research Center, United States |
| SPEECH-P12.11: VARIATIONAL INFERENCE AND LEARNING FOR SEGMENTAL SWITCHING STATE SPACE MODELS OF HIDDEN SPEECH DYNAMICS |
| Leo Lee, University of Waterloo, Canada; Hagai Attias, Li Deng, Microsoft Research, United States |
| SPEECH-P12.12: IMPROVING THE PERFORMANCE OF AN LVCSR SYSTEM THROUGH ENSEMBLES OF ACOUSTIC MODELS |
| Rong Zhang, Alexander Rudnicky, Carnegie Mellon University, United States |
| Top |
| SPEECH-P13: Feature Extraction Techniques and Applications |
| SPEECH-P13.1: HIDDEN MARKOV MODEL-BASED SPEECH EMOTION RECOGNITION |
| Björn Schuller, Gerhard Rigoll, Manfred Lang, Munich University of Technology, Germany |
| SPEECH-P13.2: AUDIO SEGMENTATION, CLASSIFICATION AND CLUSTERING IN A BROADCAST NEWS TASK |
| Hugo Meinedo, INESC-ID Lisboa, Portugal; João P. Neto, INESC-ID Lisboa / IST, Portugal |
| SPEECH-P13.3: CLASSIFICATION OF STRESS IN SPEECH USING LINEAR AND NONLINEAR FEATURES |
| Tin Lay Nwe, National University of Singapore, Singapore; Say Wei Foo, Nanyang Technological University, Singapore; Liyanage C. De Silva, National University of Singapore, Singapore |
| SPEECH-P13.4: MINING SPEECH: AUTOMATIC SELECTION OF HETEROGENEOUS FEATURES USING BOOSTING |
| Aldebaro Klautau, University of California, San Diego, United States |
| SPEECH-P13.5: A FUSION STUDY IN SPEECH / MUSIC CLASSIFICATION |
| Julien Pinquier, Jean-Luc Rouas, Régine André-Obrecht, IRIT, France |
| SPEECH-P13.6: MULTI-LINEAR HMM BASED SYSTEM FOR ARTICULATORY FEATURE EXTRACTION |
| Tarek Abu-amer, Julie Carson-Berndsen, University College Dublin, Ireland |
| SPEECH-P13.7: DISTINCTIVE PHONETIC FEATURE EXTRACTION FOR ROBUST SPEECH RECOGNITION |
| Takashi Fukuda, Wataru Yamamoto, Tsuneo Nitta, Toyohashi University of Technology, Japan |
| SPEECH-P13.8: THIN CLIENT FRONT-END PROCESSOR FOR DISTRIBUTED SPEECH RECOGNITION |
| Kim Foong Chow, Shiang Chen Liew, Kim Teng Lua, National University of Singapore, Singapore |
| SPEECH-P13.9: MODULAR NEURAL PREDICTIVE CODING FOR DISCRIMINATIVE FEATURE EXTRACTION |
| Mohamed Chetouani, Bruno Gas, Jean-Luc Zarader, Laboratoire des Instruments et Systèmes, France |
| SPEECH-P13.10: NOVEL ROBUST FEATURE EXTRACTION BASED ON SPECTRALLY MASKED CHANNEL ENERGY RATIO (SMACHER) FOR SPEECH RECOGNITION |
| Changxue Ma, Motorola Inc, United States |
| SPEECH-P13.11: TIME-VARIANT LEAST SQUARES HARMONIC MODELING |
| Qin Li, Les Atlas, University of Washington, United States |
| SPEECH-P13.12: DISCRIMINATIVE TRAINING OF AUDITORY FILTERS OF DIFFERENT SHAPES FOR ROBUST SPEECH RECOGNITION |
| Brian Mak, Hong Kong University of Science and Technology, Hong Kong SAR of China; Yik-Cheung Tam, Carnegie Mellon University, United States; Roger Hsiao, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| Top |
| SPEECH-P14: Speaker Verification and Identification Systems |
| SPEECH-P14.1: FEATURE AND SCORE NORMALIZATION FOR SPEAKER VERIFICATION OF CELLULAR DATA |
| Claude Barras, Jean-Luc Gauvain, LIMSI-CNRS, France |
| SPEECH-P14.2: CHANNEL ROBUST SPEAKER VERIFICATION VIA FEATURE MAPPING |
| Douglas Reynolds, MIT Lincoln Laboratory, United States |
| SPEECH-P14.3: IMPROVED SPEAKER VERIFICATION OVER THE CELLULAR PHONE NETWORK USING PHONEME-BALANCED AND DIGIT-SEQUENCE-PRESERVING CONNECTED DIGIT PATTERNS |
| Tsuneo Kato, Tohru Shimizu, KDDI R&D Laboratories Inc., Japan |
| SPEECH-P14.4: THE IBM SYSTEM FOR THE NIST-2002 CELLULAR SPEAKER VERIFICATION EVALUATION |
| Ganesh Ramaswamy, Jiri Navratil, Upendra Chaudhari, Ran Zilca, IBM Research, United States |
| SPEECH-P14.5: VECTOR QUANTIZATION TECHNIQUES FOR GMM BASED SPEAKER VERIFICATION |
| Gurmeet Singh, Indian Institute of Technology, India; Ashish Panda, Saurav Bhattacharyya, Thambipillai Srikanthan, Nanyang Technological University, Singapore |
| SPEECH-P14.6: D-MAP : A DISTANCE-NORMALIZED MAP ESTIMATION OF SPEAKER MODELS FOR AUTOMATIC SPEAKER VERIFICATION |
| Mathieu Ben, IRISA (CNRS & INRIA)/METISS, France; Frédéric Bimbot, IRISA (INRIA & CNRS)/METISS, France |
| SPEECH-P14.7: OPEN SET TEXT-INDEPENDENT SPEAKER RECOGNITION BASED ON SET-SCORE PATTERN CLASSIFICATION |
| Jiuqing Deng, Qixiu Hu, Tsinghua University, China |
| SPEECH-P14.8: SPEAKER DETECTION USING MULTI-SPEAKER AUDIO FILES FOR BOTH ENROLLMENT AND TEST |
| Jean-Francois Bonastre, Sylvain Meignier, Teva Merlin, Laboratoire Informatique Avignon, France |
| SPEECH-P14.9: DEPITCH AND THE ROLE OF FUNDAMENTAL FREQUENCY IN SPEAKER RECOGNITION |
| Ran Zilca, Jiri Navratil, Ganesh Ramaswamy, IBM, United States |
| SPEECH-P14.10: TOWARDS DOMAIN INDEPENDENT SPEAKER CLUSTERING |
| Yvonne Moh, Aachen University (RWTH), Germany; Patrick Nguyen, Jean-Claude Junqua, Panasonic Speech Technology Laboratory, United States |
| SPEECH-P14.11: THE ELISA CONSORTIUM APPROACHES IN SPEAKER SEGMENTATION DURING THE NIST 2002 SPEAKER RECOGNITION EVALUATION |
| Daniel Moraru, CLIPS/IMAG, France; Sylvain Meignier, LIA, France; Laurent Besacier, CLIPS/IMAG, France; Jean-Francois Bonastre, LIA, France; Ivan Magrin-Chagnolleau, DDL, France |
| SPEECH-P14.12: FORENSIC IDENTIFICATION REPORTING USING AUTOMATIC SPEAKER RECOGNITION SYSTEMS |
| Joaquín González-Rodríguez, Julián Fiérrez-Aguilar, Javier Ortega-García, Universidad Politécnica de Madrid, Spain |
| Top |
| SPEECH-P15: General Topics in Robust ASR |
| SPEECH-P15.1: MODELLING UNCERTAINTY IN STOCHASTIC VECTOR MAPPING WITH MINIMUM CLASSIFICATION ERROR TRAINING FOR ROBUST SPEECH RECOGNITION |
| Jian Wu, Qiang Huo, University of Hong Kong, Hong Kong SAR of China |
| SPEECH-P15.2: A MISMATCH-AWARE STOCHASTIC MATCHING ALGORITHM FOR ROBUST SPEECH RECOGNITION |
| Yuan-Fu Liao, Jeng-Shien Lin, National Taipei University of Technology, Taiwan; Sin-Horng Chen, National Chiao Tung University, Taiwan |
| SPEECH-P15.3: THE IMPACT OF SPECTRAL AND ENERGY MISMATCH ON THE AURORA2 DIGIT RECOGNITION TASK |
| Febe de Wet, Johan de Veth, Bert Cranen, Louis Boves, University of Nijmegen, Netherlands |
| SPEECH-P15.4: ON THE USE OF WIDEBAND SIGNAL FOR NOISE ROBUST ASR |
| Dusan Macho, Yan Ming Cheng, Motorola Labs, HIL, United States |
| SPEECH-P15.5: ENVIRONMENTAL SNIFFING: NOISE KNOWLEDGE ESTIMATION FOR ROBUST SPEECH SYSTEMS |
| Murat Akbacak, John H.L. Hansen, University of Colorado, Boulder, United States |
| SPEECH-P15.6: A VECTOR STATISTICAL PIECEWISE POLYNOMIAL APPROXIMATION ALGORITHM FOR ENVIRONMENT COMPENSATION IN TELEPHONE LVCSR |
| Zhaobing Han, Shuwu Zhang, Huayun Zhang, Bo Xu, Chinese Academy of Sciences, China |
| SPEECH-P15.7: STRUCTURAL SPEAKER ADAPTATION USING MAXIMUM A POSTERIORI APPROACH AND A GAUSSIAN DISTRIBUTIONS MERGING TECHNIQUE |
| Olivier Bellot, Driss Matrouf, Pascal Nocera, Georges Linares, Jean-Francois Bonastre, Laboratoire d'Informatique d'Avignon, France |
| SPEECH-P15.8: CSA-BF: NOVEL CONSTRAINED SWITCHED ADAPTIVE BEAMFORMING FOR SPEECH ENHANCEMENT & RECOGNITION IN REAL CAR ENVIRONMENTS |
| Xianxian Zhang, John Hansen, University of Colorado, Boulder, United States |
| SPEECH-P15.9: LOW BIT-RATE FEATURE VECTOR COMPRESSION USING TRANSFORM CODING AND NON-UNIFORM BIT ALLOCATION |
| Ben Milner, Xu Shao, University of East Anglia, United Kingdom |
| SPEECH-P15.10: PHASE AUTOCORRELATION (PAC) DERIVED ROBUST SPEECH FEATURES |
| Shajith Ikbal, Hemant Misra, Hervé Bourlard, IDIAP, Switzerland |
| SPEECH-P15.11: INVESTIGATING RECOGNITION OF CHILDREN'S SPEECH |
| Diego Giuliani, Matteo Gerosa, Centro per la Ricerca Scientifica e Tecnologica, Italy |
| SPEECH-P15.12: LINEAR EQUALIZATION OF THE MODULATION SPECTRA: A NOVEL APPROACH FOR NOISY SPEECH RECOGNITION |
| Fernando Díaz-de-María, Jesús Vicente-Peña, Ascensión Gallardo-Antolín, Carmen Peláez-Moreno, Universidad Carlos III de Madrid, Spain |
| Top |
| SPEECH-P16: Speech Coding |
| SPEECH-P16.1: CELP BASED SPEECH CODING WITH FINE GRANULARITY SCALABILITY |
| Fang-Chu Chen, I-Hsien Lee, Industry of Technology Research Institute, Taiwan |
| SPEECH-P16.2: OPTIMIZING GAIN CODEBOOK OF LD-CELP |
| Gang Zhang, Keming Xie, Xueying Zhang, Liying Huangfu, Taiyuan University of Technology, China |
| SPEECH-P16.3: HYBRID MELP/CELP CODING AT BIT RATES FROM 6.4 TO 2.4 KB/S |
| Jacek Stachurski, Alan McCree, Vishu Viswanathan, Texas Instruments, United States; Ari Heikkinen, Anssi Ramo, Sakari Himanen, Nokia Research Center, Finland; Peter Bloecher, Ericsson Eurolab, Germany |
| SPEECH-P16.4: JOINT OPTIMIZATION OF SHORT-TERM AND LONG-TERM PREDICTORS IN CELP SPEECH CODING |
| Houman Zarrinkoub, MathWorks, Inc., United States; Paul Mermelstein, Institut national de la recherche scientifique, Canada |
| SPEECH-P16.5: RATE ADJUSTABLE SPEECH CODING BY LATTICE QUANTIZATION |
| Fredrik Norden, Turaj Zakizadeh Shabestary, Per Hedelin, Chalmers University of Technology, Sweden |
| SPEECH-P16.6: LSF QUANTISATION FOR PITCH SYNCHRONOUS SPEECH CODERS |
| Christian Sturt, Stephane Villette, Ahmet Kondoz, University of Surrey, United Kingdom |
| SPEECH-P16.7: A WAVEFORM EXTRACTOR FOR SCALABLE SPEECH CODING |
| Miguel Arjona-Ramírez, University of São Paulo, Brazil |
| SPEECH-P16.8: A CASCADED ALGEBRAIC CODEBOOK STRUCTURE TO IMPOVE THE PERFORMANCE OF SPEECH CODER |
| Sung-Kyo Jung, Kyung-Tae Kim, Hong-Goo Kang, Dae Hee Youn, Yonsei University, Republic of Korea |
| SPEECH-P16.9: A NOVEL TRANSCODING ALGORITHM FOR AMR AND EVRC SPEECH CODECS VIA DIRECT PARAMETER TRANSFORMATION |
| Sunil Lee, Seongho Seo, Dalwon Jang, Chang D. Yoo, Korea Advanced Institute of Science and Technology, Republic of Korea |
| SPEECH-P16.10: WIDE BAND SUB-BAND SPEECH CODING USING NON-LINEAR PREDICTION |
| Marcos Faundez-Zanuy, Escola Universitaria Politecnica de Mataro (UPC), Spain |
| SPEECH-P16.11: SUPER-FRAME BASED SOURCE CONTROLED VARIABLE RATE CODING USING APPROXIMATED TRELLIS DIAGRAM |
| Kei Kikuiri, Nobuhiko Naka, Tomoyuki Ohya, NTT DoCoMo, Inc., Japan |
| SPEECH-P16.12: A STUDY OF JOINT SOURCE-CHANNEL CODING OF LSP PARAMETERS FOR WIDEBAND SPEECH CODING |
| José L. Pérez-Córdoba, Antonio M. Peinado, Victoria E. Sánchez, Antonio J. Rubio, Universidad de Granada, Spain |
| Top |
| SPEECH-P17: Speaker ID/Verification: Discriminative Methods and Multiple Speakers |
| SPEECH-P17.1: UBM-BASED REAL-TIME SPEAKER SEGMENTATION FOR BROADCASTING NEWS |
| TingYao Wu, Peking University, China; Lie Lu, Microsoft Research Asia, China; Ke Chen, Birmingham University, United Kingdom; Hong-Jiang Zhang, Microsoft Research Asia, China |
| SPEECH-P17.2: ESTIMATING NUMBER OF SPEAKERS BY THE MODULATION CHARACTERISTICS OF SPEECH |
| Takayuki Arai, Sophia University, Japan |
| SPEECH-P17.3: PITCH MAXIMA FOR ROBUST SPEAKER RECOGNITION |
| S Krishnakumar, K R Prasanna Kumar, N. Balakrishnan, Indian Institute of Science, Bangalore, India |
| SPEECH-P17.4: CO-CHANNEL SPEAKER IDENTIFICATION USING USABLE SPEECH EXTRACTION BASED ON MULTI-PITCH TRACKING |
| Yang Shao, DeLiang Wang, Ohio State University, United States |
| SPEECH-P17.5: A SVM/HMM SYSTEM FOR SPEAKER RECOGNITION |
| William Campbell, MIT Lincoln Laboratory, United States |
| SPEECH-P17.6: MINIMUM CLASSIFICATION ERROR/EIGENVOICES TRAINING FOR SPEAKER IDENTIFICATION |
| Fabio Valente, Christian J. Wellekens, Eurecom Institute, France |
| SPEECH-P17.7: FAST DISCRIMINATIVE TRAINING FOR SEQUENTIAL OBSERVATIONS WITH APPLICATION TO SPEAKER IDENTIFICATION |
| Qi Li, lilabs.com, United States; Biing-Hwang Juang, Georgia Institute of Technology, United States |
| SPEECH-P17.8: SVMSVM: SUPPORT VECTOR MACHINE SPEAKER VERIFICATION METHODOLOGY |
| Vincent Wan, Steve Renals, University of Sheffield, United Kingdom |
| SPEECH-P17.9: HYBRID HMM/ANN AND GMM COMBINATION FOR USER-CUSTOMIZED PASSWORD SPEAKER VERIFICATION |
| Mohamed Faouzi BenZeghiba, Hervé Bourlard, IDIAP, Switzerland |
| SPEECH-P17.10: SUPPORT VECTOR MACHINE FUSION OF IDIOLECTAL AND ACOUSTIC SPEAKER INFORMATION IN SPANISH CONVERSATIONAL SPEECH |
| Daniel García-Romero, Julián Fiérrez-Aguilar, Joaquín González-Rodríguez, Javier Ortega-García, Universidad Politécnica de Madrid, Spain |
| SPEECH-P17.11: SPEAKER VERIFICATION WITHOUT BACKGROUND SPEAKER MODELS |
| Chun-Nan Hsu, Hau-Chung Yu, Bo-Hou Yang, Academia Sinica, Taiwan |
| Top |
| ITT-L1: Emerging Industrial Applications |
| ITT-L1.1: DE-PIPELINE A SOFTWARE-PIPELINED LOOP |
| Bogong Su, William Paterson University of New Jersey, United States; Jian Wang, Nortel Networks, Canada; Erh-Wen Hu, Joseph Manzano, William Paterson University of New Jersey, United States |
| ITT-L1.2: INSPECTION OF SURFACE DEFECTS USING OPTIMAL FIR FILTERS |
| Ajay Kumar, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| ITT-L1.3: GEARBOX FAULT DIAGNOSIS USING INDEPENDENT COMPONENT ANALYSIS IN THE FREQUENCY DOMAIN AND WAVELET FILTERING |
| Xinhao Tian, Jing Lin, Ken Fyfe, Ming Zuo, University of Alberta, Canada |
| ITT-L1.4: APPLICATION OF SIGNAL PROCESSING TECHNOLOGY FOR AUTOMATIC UNDERGROUND COAL MINING MACHINERY |
| Jonathon Ralston, David Hainsworth, Ronald McPhee, David Reid, Chad Hargrave, CSIRO, Australia |
| Top |
| ITT-L2: Biomedical and Biometric Technology I |
| ITT-L2.1: A DSP-BASED APPROACH FOR THE IMPLEMENTATION OF FACE RECOGNITION ALGORITHMS |
| Aziz Batur, Georgia Institute of Technology, United States; Bruce Flinchbaugh, Texas Instruments, United States; Monson Hayes, Georgia Institute of Technology, United States |
| ITT-L2.2: ROBUST ESTIMATION OF FETAL HEART RATE VARIABILITY USING DOPPLERULTRASOUND |
| Kumari Fernando, V. Mathews, Michael Varner, Edward Clark, University of Utah, United States |
| ITT-L2.3: AUTOMATIC IDENTIFICATION OF LUNG ABNORMALITIES IN CHEST SPIRAL CT SCANS |
| Ayman El-Baz, Aly Farag, University of Louisville, United States; Robert Falk, Jewish Hospital, United States; Renato La Rocca, Kentuckiana Cancer Institute, United States |
| ITT-L2.4: DETECTION OF NEWBORN EEG SEIZURE USING OPTIMAL FEATURES BASED ON DISCRETE WAVELET TRANSFORM |
| Pega Zarjam, Mostefa Mesbah, Boualem Boashash, Queensland University of Technology, Australia |
| ITT-L2.5: AUTOMATIC CLASSIFICATION OF ECG BEATS USING WAVEFORM SHAPE AND HEART BEAT INTERVAL FEATURES |
| Philip de Chazal, R. B. Reilly, University College Dublin, Ireland |
| Top |
| ITT-L3: Speech Recognition |
| ITT-L3.1: HEURISTIC STRUCTURAL MODIFICATIONS TO THE HMM FOR EFFICIENT RESOURCE UTILIZATION |
| Yong-Beom Lee, Samsung Advanced Institute of Technology, Republic of Korea; John R. (Jack) Deller, Jr., Michigan State University, United States |
| ITT-L3.2: MULTI-STREAM PROCESSING USING CONTEXT-INDEPENDENT AND CONTEXT-DEPENDENT HYBRID SYSTEMS |
| Astrid Hagen, L2F - INESC-ID, Portugal; João P. Neto, L2F - INESC-ID / IST, Portugal |
| ITT-L3.3: HIGH PERFORMANCE SPEAKER AND VOCABULARY INDEPENDENT ASR TECHNOLOGY FOR MOBILE PHONES |
| Sergey Astrov, Josef Bauer, Sorel Stan, Siemens AG, Germany |
| ITT-L3.4: A BOOSTED MULTI-HMM CLASSIFIER FOR RECOGNITION OF VISUAL SPEECH ELEMENTS |
| Say Wei Foo, Nanyang Technological University, Singapore; Liang Dong, National University of Singapore, Singapore |
| ITT-L3.5: ON THE USAGE OF AUTOMATIC VOICE RECOGNITION IN AN INTERACTIVE WEB BASED MEDICAL APPLICATION |
| Claudio Eccher, Lorenzo Eccher, Daniele Falavigna, Luca Nardelli, Marco Orlandi, Andrea Sboner, ITC-irst, Italy |
| ITT-L3.6: A NOVEL EFFICIENT DECODING ALGORITHM FOR CDHMM-BASED SPEECH RECOGNIZER ON CHIP |
| Xuan Zhu, Yining Chen, Jia Liu, Runsheng Liu, Tsinghua University, China |
| Top |
| ITT-L4: DSP Architectures |
| ITT-L4.1: AN ULTRA-FAST REED-SOLOMON DECODER SOFT-IP WITH 8-ERROR CORRECTING CAPABILITY |
| Toshiyuki Yamane, Yasunao Katayama, IBM Research, Tokyo Research Laboratory, Japan |
| ITT-L4.2: A HIGH-PERFORMANCE EMBEDDED DSP CORE WITH NOVEL SIMD FEATURES |
| Jeff Derby, Jaime Moreno, IBM Corporation, United States |
| ITT-L4.3: INTEL® WIRELESS MMX(TM) TECHNOLOGY: A 64-BIT SIMD ARCHITECTURE FOR MOBILE MULTIMEDIA |
| Nigel Paver, Bradley Aldrich, Moinul Khan, Intel Corporation, United States |
| ITT-L4.4: A LOW COMPLEXITY ARCHITECTURE FOR COMPLEX DISCRETE WAVELET TRANSFORM |
| Bipul Das, University of Illinois, Chicago, United States; Swapna Banerjee, Indian Institute of Technology, India |
| ITT-L4.5: HIGH PERFORMANCE IDCT REALIZATION USING COMPLEX ARITHMETIC |
| Kar-Lik Wong, ARC International, United Kingdom; Nigel Topham, Siroyan Limited, United Kingdom |
| ITT-L4.6: A DVD PROCESSOR WITH DUAL CPUS AND INTEGRATED DIGITAL FRONT-END FOR ADVANCED DVD-BASED CONSUMER APPLIANCES |
| Mark Rygh, Jeff Fratus, Kevin Lee, Syed Husaini, Vidya Premkumar, Konstantinos Konstantinides, Cirrus Logic, United States |
| Top |
| ITT-L5: Communication Technologies |
| ITT-L5.1: A NOVEL 64-POINT FFT/IFFT PROCESSOR FOR IEEE 802.11(A) STANDARD |
| Koushik Maharatna, Eckhard Grass, Ulrich Jagdhold, IHP, Germany |
| ITT-L5.2: SUB-CHANNEL BELOW THE PERCEPTUAL THRESHOLD IN AUDIO |
| Heping Ding, National Research Council, Canada |
| ITT-L5.3: I/Q MISMATCH COMPENSATION IN ZERO-IF OFDM RECEIVERS WITH APPLICATION TO DAB |
| Alexander Wright, Patrick Naylor, Imperial College London, United Kingdom |
| ITT-L5.4: OPTIMIZED LOW-POWER SYNCHRONIZER DESIGN FOR THE IEEE 802.11A STANDARD |
| Milos Krstic, Alfonso Troya, Koushik Maharatna, Eckhard Grass, IHP, Germany |
| ITT-L5.5: AUDIO DATA HIDING WITH APPLICATION TO SURROUND SOUND |
| Jim Chou, Kannan Ramchandran, University of California, Berkeley, United States; Daniel Sachs, Douglas Jones, University of Illinois, Urbana-Champaign, United States |
| ITT-L5.6: A PERFORMANCE AND COMPLEXITY COMPARISON OF AUTO-CORRELATION AND CROSS-CORRELATION FOR OFDM BURST SYNCHRONIZATION |
| Andrew Fort, Jan-Willem Weijers, Veerle Derudder, Wolfgang Eberle, Andre Bourdoux, IMEC, Belgium |
| Top |
| ITT-P1: Biomedical and Biometric Technology II |
| ITT-P1.1: FUZZY LOGIC AND SCALE SPACE APPROACH TO MICROCALCIFICATION DETECTION |
| H. D. Cheng, Jingli Wang, Utah State University, United States |
| ITT-P1.2: NONLINEAR SEPARATION OF SIGNATURE TRAJECTORIES FOR ON-LINE PERSONAL AUTHENTICATION |
| Mitsuru Kondo, Daigo Muramatsu, Masahiro Sasaki, Takashi Matsumoto, Waseda University, Japan |
| ITT-P1.3: REAL-TIME FACE VERIFICATION USING MULTIPLE FEATURE COMBINATION AND A SUPPORT VECTOR MACHINE SUPERVISOR |
| Do-Hyung Kim, Jae-Yeon Lee, Jung Soh, Yun-Koo Chung, ETRI, Republic of Korea |
| ITT-P1.4: WAVELET ANALYSIS OF ATRIAL FIBRILLATION ELECTROGRAMS |
| John Mell, Donald Jordan, Yuping Xiao, Yibin Zheng, Joseph Akar, David Haines, University of Virginia, United States |
| ITT-P1.5: INVESTIGATION OF CODING STRUCTURE IN DNA |
| Gail Rosen, Jeffrey Moore, Georgia Institute of Technology, United States |
| ITT-P1.6: DETECTING SALIENT CHANGES IN GENOMIC SIGNALS |
| Tanveer Syeda-Mahmood, IBM Almaden Research Center, United States |
| ITT-P1.7: HMM-NEURAL NETWORK MONOPHONE MODELS FOR COMPUTER-BASED ARTICULATION TRAINING FOR THE HEARING IMPAIRED |
| Mukund Devarajan, Fansheng Meng, Penny Hix, Stephen Zahorian, Old Dominion University, United States |
| ITT-P1.8: DETECTION AND SCREENING OF SLEEP APNEA USING SPECTRAL AND TIME DOMAIN ANALYSIS OF HEART RATE VARIABILITY |
| Abed Elhamid Lawabni, Ahmed Tewfik, University of Minnesota, United States |
| ITT-P1.9: JOINT AUDIO-VIDEO PROCESSING FOR BIOMETRIC SPEAKER IDENTIFICATION |
| Alper Kanak, Engin Erzin, Yucel Yemez, A. Murat Tekalp, Koc University, Turkey |
| ITT-P1.10: SVMS FOR FEW EXAMPLES-BASED FACE RECOGNITION |
| Cui Guoqin, Gao Wen, Chinese Academy of Sciences, China |
| ITT-P1.11: A COMPARISON OF CLUSTERED MICROCALCIFICATIONS AUTOMATED DETECTION METHODS IN DIGITAL MAMMOGRAM |
| Wan Mimi Diyana, Julie Larcher, Rosli Besar, Multimedia University, Malaysia |
| ITT-P1.12: COMPARATIVE PERFORMANCE OF TIME-FREQUENCY BASED NEWBORN EEG SEIZURE DETECTION USING SPIKE SIGNATURES |
| Hamid Hassanpour, Mostefa Mesbah, Boualem Boashash, Queensland University of Technology, Australia |
| Top |
| ITT-P2: Defense, Tracking and Security Applications |
| ITT-P2.1: FACTOR GRAPHS FOR MOBILE POSITION LOCATION |
| Jung-Chieh Chen, Ching-Shyang Maa, Jiunn-Tsair Chen, National Tsing-Hua University, Taiwan |
| ITT-P2.2: IMPROVED HRR-ATR USING HYBRIDIZATION OF HMM AND EIGEN-TEMPLATE-MATCHED FILTERING |
| Anindya Paul, Arnab Shaw, Koel Das, Wright State University, United States; Atindra Mitra, Air Force Research Laboratory, United States |
| ITT-P2.3: IMPROVED TARGET DETECTOR FOR FLIR IMAGERY |
| Lipchen Alex Chan, Sandor Z. Der, Nasser M. Nasrabadi, United States Army Research Laboratory, United States |
| ITT-P2.4: A PIECEWISE PARAMETRIC METHOD BASED ON POLYNOMIAL PHASE MODEL TO COMPENSATE IONOSPHERIC PHASE CONTAMINATION |
| Kun Lu, Jiong Wang, Xingzhao Liu, Shanghai JiaoTong University, China |
| ITT-P2.5: TRACKING MULTIPLE MANEUVERING POINT TARGETS USING MULTIPLE FILTER BANK IN INFRARED IMAGE SEQUENCE |
| Mukesh Zaveri, Uday Desai, S. N. Merchant, Indian Institute of Technology, Bombay, India |
| ITT-P2.6: AN EFFICIENT IMPLEMENTATION OF MULTI-PRIME RSA ON DSP PROCESSOR |
| Anand Krishnamurthy, Yiyan Tang, Cathy Xu, Yuke Wang, University of Texas, Dallas, United States |
| ITT-P2.7: SCALABLE ENCRYPTION FOR MULTIMEDIA CONTENT ACCESS CONTROL |
| Heather Yu, Panasonic Information and Networking Technologies Laboratory, United States |
| ITT-P2.8: AUDIO STEGANOGRAPHY USING BIT MODIFICATION |
| Kaliappan Gopalan, Purdue University, Calumet, United States |
| ITT-P2.9: RECURSIVE ESTIMATION OF K-DISTRIBUTION PARAMETERS |
| Pei-Jung Chung, Carnegie Mellon University, United States; William Roberts, Atlantic Coast Technologies, Inc., United States |
| ITT-P2.10: AN EFFICIENT SAR ATR APPROACH |
| Ping Han, Renbiao Wu, Civil Aviation University of China, China; Yunhong Wang, Chinese Academy of Sciences, United States; Zhaohua Wang, Tianjin University, China |
| Top |
| ITT-P3: Radio, Telephony and Television |
| ITT-P3.1: RAPID PROTOTYPING FOR AN OPTIMIZED MPEG4 DECODER IMPLEMENTATION OVER A PARALLEL HETEROGENEOUS ARCHITECTURE |
| Nicolas Ventroux, Jean François Nezan, Mickael Raulet, Olivier Déforges, IETR / INSA Rennes, France |
| ITT-P3.2: ENHANCED 8-VSB TRANSMISSION FOR NORTH-AMERICAN HDTV TERRESTRIAL BROADCAST |
| Azzedine Touzni, Haosong Fu, ATI Technologies Inc., United States; Mark Fimoff, Wayne Bretl, Zenith Electronics, United States |
| ITT-P3.3: REAL-TIME MPEG VIDEO CODING WITH INFORMATION LOOK-AHEAD |
| Ligang Lu, Vadim Sheinin, IBM T. J. Watson Research Center, United States |
| ITT-P3.4: A RECONFIGURABLE 100 MCHIP/S SPREAD SPECTRUM RECEIVER |
| Jon Arnold, Adrian Caldow, Kevin Harman, Defence Science and Technology Organisation, Australia |
| ITT-P3.5: ON DETERMINING SOFT OUTPUT OF THE CELLULAR TEXT TELEPHONE MODEM (CTM) DEMODULATOR |
| Wen Xu, Siemens AG , Germany; Matthias Marke, Siemens AG, Germany |
| ITT-P3.6: TEMPOREL AND SPECTRAL ANALYSIS OF TIME INTERLEAVED HIGH PASS SIGMA DELTA CONVERTER |
| Van Tam Nguyen, Patrick Loumeau, Jean-Francois Naviner, ENST, France |
| ITT-P3.7: EFFICIENT CALCULATION OF LINE SPECTRAL FREQUENCIES BASED ON NEW METHOD FOR SOLUTION OF TRANSCENDENTAL EQUATIONS |
| Vasyl Semenov, Alexander Kalyuzhny, Alexander Kovtonyuk, ''DELTA'' S.P.E., Ukraine |
| ITT-P3.8: ANALYSIS OF DIFFERENT PREDISTORTION STRUCTURES AND EFFICIENT LEAST-SQUARE ADAPTIVE ALGORITHMS |
| Yeqing Qian, Huazhong University of Science and Technology, China; Qi Li, Atelier Telecom AB, Sweden; Tianren Yao, Huazhong University of Science and Technology, China |
| ITT-P3.9: FAST KALMAN/LMS ALGORITHMS ON THE STRONG MULTIPATH CHANNEL |
| JungMin Choi, JungSu Kim, JaeHong Park, Jong-wha Chong, Hanyang University, Republic of Korea |
| ITT-P3.10: A PSEUDO ADAPTIVE MICROPHONE ARRAY |
| Jianfeng Chen, Louis Shue, Hanwu Sun, Institute for Infocomm Research, Singapore |
| ITT-P3.11: COMPARATIVE STUDY OF WIDEBAND SINGLE REFERENCE ACTIVE NOISE CANCELLATION ALGORITHMS ON A FIXED-POINT DSP |
| Bharath Siravara, Mohamed Mansour, Randy Cole, Neeraj Magotra, Texas Instruments, United States |
| Top |
| DISPS-L1: High Performance Video and Image Processing Architectures |
| DISPS-L1.1: DESIGN AND IMPLEMENTATION OF A CMOS SENSOR BASED VIDEO CAMERA INCORPORATING A COMBINED AWB/AEC MODULE. |
| Magnus Nilsson, Chaminda Weerasinghe, Serge Lichman, Yu Shi, Igor Kharitonenko, Motorola Australian Research Centre, Australia |
| DISPS-L1.2: PARALLEL HIGH-SPEED ARCHITECTURE FOR EBCOT IN JPEG2000 |
| Yijun Li, Ramy E. Aly, Magdy A. Bayoumi, University of Louisiana, Lafayette, United States |
| DISPS-L1.3: RAPID PROTOTYPING OF JPEG ENCODER USING THE ASIP DEVELOPMENT SYSTEM: PEAS-III |
| Shinsuke Kobayashi, Kentaro Mita, Yoshinori Takeuchi, Masaharu Imai, Osaka University, Japan |
| DISPS-L1.4: HARDWARE ORIENTED RATE CONTROL ALGORITHM AND IMPLEMENTATION FOR REALTIME VIDEO CODING |
| Hung-Chi Fang, Tu-Chih Wang, Yu-Wei Chang, Liang-Gee Chen, National Taiwan University, Taiwan |
| DISPS-L1.5: PERFORMANCE ANALYSIS OF HARDWARE ORIENTED ALGORITHM MODIFICATIONS IN H.264 |
| Tu-Chih Wang, Yu-Wen Huang, Hung-Chi Fang, Liang-Gee Chen, National Taiwan University, Taiwan |
| DISPS-L1.6: VITURBO: A RECONFIGURABLE ARCHITECTURE FOR VITERBI AND TURBO DECODING |
| Joseph Cavallaro, Mani Vaya, Rice University, United States |
| Top |
| DISPS-L2: High Performance DSP Computational Kernels |
| DISPS-L2.1: COOLEY-TUKEY FFT LIKE ALGORITHMS FOR THE DCT |
| Markus Pueschel, Carnegie Mellon University, United States |
| DISPS-L2.2: MULTIPLIERLESS REALIZATION OF RECURSIVE DIGITAL FILTERS USING ALLPASS STRUCTURES |
| Tapio Saramäki, Mrinmoy Bhattacharya, Tampere University of Technology, Finland |
| DISPS-L2.3: AN ASYNCHRONOUS SAMPLE-RATE CONVERTER FROM CD TO DAT |
| Ji-Suk Park, Byeong-Kuk Kim, Jin-Gyun Chung, Chonbuk National University, Republic of Korea; Keshab K. Parhi, University of Minnesota, United States |
| DISPS-L2.4: AN IMPROVED STABILITY MEASURE FOR DIGITAL FILTER IMPLEMENTATION |
| Jinxin Hao, Gang Li, Nanyang Technological University, Singapore |
| DISPS-L2.5: SOME OBSERVATIONS LEADING TO MULTIPLIERLESS IMPLEMENTATION OF LINEAR PHASE FIR FILTERS |
| Mrinmoy Bhattacharya, Tapio Saramäki, Tampere University of Technology, Finland |
| DISPS-L2.6: ENERGY-EFFICIENT AND PARAMETERIZED DESIGNS FOR FAST FOURIER TRANSFORM ON FPGAS |
| Seonil Choi, Gokul Govindu, University of Southern California, United States; Ju-Wook Jang, Sogang University, Republic of Korea; Viktor Prasanna, University of Southern California, United States |
| Top |
| DISPS-L3: Design Methods for Optimized DSP Architectures |
| DISPS-L3.1: A SIMULATION BASED APPROACH FOR INCORPORATING VIRTUAL COMPONENTS IP CORES INTO MULTIMEDIA SYSTEMS DESIGN |
| Adel Baganne, Lester Lab , France; Imed Bennour, Mehrez Elmarzougui, EµE Lab, Tunisia; Eric Martin, Lester Lab, France |
| DISPS-L3.2: AN AUTOMATED FLOATING-POINT TO FIXED-POINT CONVERSION METHODOLOGY |
| Changchun Shi, Robert Brodersen, University of California, Berkeley, United States |
| DISPS-L3.3: OPTIMIZATION OF DECISION-TIMING FOR EARLY TERMINATION OF SSDA-BASED BLOCK MATCHING |
| Atsushi Hatabu, Takashi Miyazaki, Ichiro Kuroda, NEC Corporation, Japan |
| DISPS-L3.4: SHORT VECTOR CODE GENERATION AND ADAPTATION FOR DSP ALGORITHMS |
| Franz Franchetti, Vienna University of Technology, Austria; Markus Pueschel, Carnegie Mellon University, United States |
| DISPS-L3.5: FAST AUTOMATIC SOFTWARE IMPLEMENTATIONS OF FIR FILTERS |
| Aca Gacic, Markus Pueschel, José M. F. Moura, Carnegie Mellon University, United States |
| DISPS-L3.6: QUALITY BASED COMPUTE-RESOURCE ALLOCATION IN REAL-TIME SIGNAL PROCESSING |
| Joseph Yeh, John Wawrzynek, University of California, Berkeley, United States |
| Top |
| DISPS-P1: Performance Evaluation and Design Methods for DSP Systems |
| DISPS-P1.1: 1-D AND 2-D TRANSFORMS FROM INTEGERS TO INTEGERS |
| Jia Wang, Jun Sun, Songyu Yu, Shanghai Jiao Tong University, China |
| DISPS-P1.2: ALGORITHMIC ANALYSIS AND IMPLEMENTATION OF A NOVEL NATURAL GRADIENT ADAPTIVE FILTER FOR SPARSE SYSTEMS |
| Finbarr O'Regan, Conor Heneghan, University College Dublin, Ireland |
| DISPS-P1.3: COMPARATIVE STUDY OF THE GENERALIZED DFIIT STRUCTURE AND ITS EQUIVALENT STATE-SPACE REALIZATION |
| Zixue Zhao, Gang Li, Nanyang Technological University, Singapore |
| DISPS-P1.4: FLOATING-POINT ERROR ANALYSIS BASED ON AFFINE ARITHMETIC |
| Fang Fang, Tsuhan Chen, Rob Rutenbar, Carnegie Mellon University, United States |
| DISPS-P1.5: FIXED POINT ERROR ANALYSIS OF CORDIC PROCESSOR BASED ON THE VARIANCE PROPAGATION |
| Sang Yoon Park, Nam Ik Cho, Seoul National University, Republic of Korea |
| DISPS-P1.6: DESIGN OF SPACE-EFFICIENT, WIDE- AND NARROW TRANSITION-BAND, FIR FILTERS |
| Xiaojuan Hu, Linda DeBrunner, Victor DeBrunner, University of Oklahoma, United States |
| DISPS-P1.7: REAL-TIME SOUND LOCALIZATION USING FIELD-PROGRAMMABLE GATE ARRAYS |
| Duy Nguyen, Parham Aarabi, Ali Sheikholeslami, University of Toronto, Canada |
| DISPS-P1.8: AN ALGORITHM TO REDUCE THE COMPLEXITY REQUIRED TO CONVOLVE FINITE LENGTH SEQUENCES USING THE HIRSCHMAN OPTIMAL TRANSFORM (HOT) |
| Victor DeBrunner, Ewa Matusiak, University of Oklahoma, United States |
| DISPS-P1.9: A NOVEL APPROACH FOR DIMINISHING AND PREDICTING THE ERROR DYNAMIC RANGE IN FINITE WORDLENGTH FIR BASED ARCHITECTURES |
| AbdSamad BenKrid, Khaled Benkrid, Danny Crookes, Queen's University Belfast, United Kingdom |
| DISPS-P1.10: ETSI AMR-2 VAD: EVALUATION AND ULTRA LOW-RESOURCE IMPLEMENTATION |
| Etienne Cornu, Hamid Sheikhzadeh, Robert L. Brennan, Dspfactory Ltd., Canada; Hamid Reza Abutalebi, Amirkabir University of Technology, Iran; Edmund C. Y. Tam, Peter Iles, Don Kar Wai Wong, Dspfactory Ltd., Canada |
| DISPS-P1.11: NEW RESAMPLING ALGORITHMS FOR PARTICLE FILTERS |
| Miodrag Bolic, Petar M. Djuric, Sangjin Hong, Stony Brook University, United States |
| DISPS-P1.12: QUALITY-DELAY-AND-COMPUTATION TRADE-OFF ANALYSIS OF ACOUSTIC ECHO CANCELLATION ON GENERAL-PURPOSE CPU |
| Justin Song, Jian Li, Yen-Kuang Chen, Intel Corporation, China |
| Top |
| DISPS-P2: Innovative DSP Systems and Applications |
| DISPS-P2.1: DSP IMPLEMENTATION OF A DISTRIBUTED ACOUSTICAL BEAMFORMER ON A WIRELESS SENSOR PLATFORM |
| Joe Chen, Lean Yip, H. Wang, D. Maniezzo, R.E. Hudson, Jeremy Elson, Kung Yao, Deborah Estrin, University of California, Los Angeles, United States |
| DISPS-P2.2: A HIGH-PERFORMANCE MULTI-PURPOSE DSP ARCHITECTURE FOR SIGNAL PROCESSING RESEARCH |
| Scott Morrison, Jeremy Parks, Karl Gugel, University of Florida, United States |
| DISPS-P2.3: CRACK DETECTION SYSTEM BASED ON SPECTRAL ANALYSIS OF A ULTRASONIC RESONANCE SIGNALS |
| Margarita Cabrera, Xavier Castell, Universitat Politècnica de Catalunya, Spain; Rafael Montoliu, AMES, Spain |
| DISPS-P2.4: IMPLEMENTATION OF ADAPTIVE BEAMFORMING BASED ON QR DECOMPOSITION FOR CDMA |
| Zhaohui Liu, John McCanny, Queen's University Belfast, United Kingdom |
| DISPS-P2.5: CONCURRENT INTERLEAVING ARCHITECTURES FOR HIGH-THROUGHPUT CHANNEL CODING |
| Michael J. Thul, Frank Gilbert, Norbert Wehn, University of Kaiserslautern, Germany |
| DISPS-P2.6: A VERY HIGH DENSITY VLSI IMPLEMENTATION OF THRESHOLD NETWORK ENSEMBLES (TNE) |
| Amine Bermak, Hong Kong University of Science and Technology, Hong Kong SAR of China; Dominique Martinez, LORIA-CNRS, France |
| DISPS-P2.7: IMPLEMENTATION OF A DIGITAL COPIER USING TMS320C6414 VLIW DSP PROCESSOR |
| Taeksang Hwang, Sindoricoh Co., Ltd, Republic of Korea; Wonyong Sung, Seoul National University, Republic of Korea |
| DISPS-P2.8: HIGH RADIX PARALLEL ARCHITECTURE FOR GF(P) ELLIPTIC CURVE PROCESSOR |
| Adnan Abdul-Aziz Gutub, Mohammad Ibrahim, King Fahd University of Petroleum and Minerals, Saudi Arabia |
| DISPS-P2.9: EFFICIENT INTERLEAVER MEMORY ARCHITECTURES FOR SERIAL TURBO DECODING |
| Zhongfeng Wang, National Semiconductor Co., United States; Keshab K. Parhi, University of Minnesota, United States |
| DISPS-P2.10: VLSI-IMPLEMENTATION ISSUES OF TURBO TRELLIS-CODED MODULATION |
| Frank Kienle, Gerd Kreiselmaier, Norbert Wehn, University of Kaiserslautern, Germany |
| DISPS-P2.11: ARCHITECTURE OF A SINGLE CHIP ACOUSTIC ECHO AND NOISE CANCELLER USING CROSS SPECTRAL ESTIMATION |
| Marco Liem, Otto Manck, Technische Universität Berlin, Germany |
| DISPS-P2.12: HIGH PERFORMANCE VOX PROTOTYPE DEVELOPMENT AND EXPERIMENTAL RESULTS |
| Chiman Kwan, Z. Ren, R. Xu, L. Haynes, Intelligent Automation, Inc., United States; Vernon Lenz, Golden West Communications, United States |
| Top |
| DISPS-P3: IPs and Architectures for DSP Applications |
| DISPS-P3.1: A LOW-POWER MULTIPLICATION ACCUMULATION CALCULATION UNIT FOR MULTIMEDIA APPLICATIONS |
| Oscal T.-C. Chen, Nan-Ying Shen, Chih-Chien Shen, National Chung Cheng University, Taiwan |
| DISPS-P3.2: A RECURSIVE IMPLEMENTATION OF THE DIMENSIONLESS FFT |
| Jeremy Johnson, Xu Xu, Drexel University, United States |
| DISPS-P3.3: MIXED-SCALING-ROTATION CORDIC (MSR-CORDIC) ALGORITHM AND ARCHITECTURE FOR SCALING-FREE HIGH-PERFORANCE ROTATIOAL OPERATIONS |
| Zhi-Xiu Lin, An-Yeu Wu, National Taiwan University, Taiwan |
| DISPS-P3.4: A GENERAL DSP PROCESSOR AT THE COST OF 23 KGATES AND 1/2 A MAN-YEAR DESIGN TIME |
| Eric Tell, Mikael Olausson, Dake Liu, Linköping University, Sweden |
| DISPS-P3.5: LOW VOLTAGE, LOW POWER (5:2) COMPRESSOR CELL FOR FAST ARITHMETIC CIRCUITS |
| Jiangmin Gu, Chip-Hong Chang, Nanyang Technological University, Singapore |
| DISPS-P3.6: A RADIX-16 FFT ALGORITHM SUITABLE FOR MULTIPLY-ADD INSTRUCTION BASED ON GOEDECKER METHOD |
| Daisuke Takahashi, University of Tsukuba, Japan |
| DISPS-P3.7: FASTEST LINEARLY INDEPENDENT ARITHMETIC TRANSFORMS OVER GF(3) |
| Bogdan Falkowski, Cheng Fu, Nanyang Technological University, Singapore |
| DISPS-P3.8: ANGLE QUANTIZATION APPROACH FOR LATTICE IIR FILTER IMPLEMENTATION AND ITS TRELLIS DE-ALLOCATION ALGORITHM |
| An-Yeu Wu, National Taiwan University, Taiwan; I-Hsien Lee, Cheng-Shing Wu, Industry of Technology Research Institute, Taiwan |
| DISPS-P3.9: A LOW-POWER IMAGE CONVOLUTION ALGORITHM FOR VARIABLE VOLTAGE PROCESSORS |
| Hyugjin Kwon, Jihong Kim, Seoul National University, Republic of Korea |
| DISPS-P3.10: SEMICONDUCTOR IP CORE FOR ULTRA LOW POWER MPEG-4 VIDEO DECODE IN SYSTEM-ON-SILICON |
| John Dunlop, Albert Simpson, Amphion Semiconductor Ltd., United Kingdom; Shahid Masud, Lahore University of Management Sciences, Pakistan; Moira Wylie, Jonathan Cochrane, Roger Kinkead, Amphion Semiconductor Ltd., United Kingdom |
| DISPS-P3.11: LOW-POWER HYBRID STRUCTURE OF DIGITAL MATCHED FILTERS FOR DIRECT SEQUENCE SPREAD SPECTRUM SYSTEMS |
| Sung-Won Lee, In-Cheol Park, KAIST, Republic of Korea |
| DISPS-P3.12: AN IMPROVED PARALLEL ARCHUTECTURE FOR MPEG-4 MOTION ESTIMATION IN 3G MOBILE APPLICATIONS |
| Donglai Xu, University of Teesside, United Kingdom; Hadj Batatia, ENSEEIHT, France; Rui Gao, University of Teesside, United Kingdom |
| Top |
| NEURAL-L1: Neural Models and Systems |
| NEURAL-L1.1: A GENERAL FRAMEWORK FOR SVD FLOWS AND JOINT SVD FLOWS |
| Gen Hori, RIKEN, Japan |
| NEURAL-L1.2: ON THE CONVERGENCE OF SIPEX: A SIMULTANEOUS PRINCIPAL COMPONENTS EXTRACTION ALGORITHM |
| Deniz Erdogmus, Yadunandana N. Rao, M. Can Ozturk, University of Florida, United States; Luis Vielva, Universidad de Cantabria, Spain; Jose C. Principe, University of Florida, United States |
| NEURAL-L1.3: PROPAGATION OF UNCERTAINTY IN BAYESIAN KERNELS MODELS - APPLICATION TO MULTIPLE-STEP AHEAD FORECASTING |
| Joaquin Quinonero Candela, Technical University of Denmark, Denmark; Agathe Girard, Glasgow University, United Kingdom; Jan Larsen, Technical University of Denmark, Denmark; Carl Edward Rasmussen, Max Planck Institute, Germany |
| NEURAL-L1.4: ANALYSIS OF THE CLASS OF COMPLEX-VALUED ERROR ADAPTIVE NORMALISED NONLINEAR GRADIENT DESCENT ALGORITHMS |
| Andrew Hanna, Ian Yates, University of East Anglia, United Kingdom; Danilo Mandic, Imperial College of Science, Technology and Medicine, United Kingdom |
| NEURAL-L1.5: ON-LINE ONE-CLASS SUPPORT VECTOR MACHINES. AN APPLICATION TO SIGNAL SEGMENTATION. |
| Arthur Gretton, MPI for Biological Cybernetics, Germany; Frédéric Desobry, IRCCyN - ECN, UMR CNRS 6597, France |
| NEURAL-L1.6: A NEW FORMALIZATION OF MINIMUM CLASSIFICATION ERROR USING A PARZEN ESTIMATE OF CLASSIFICATION CHANCE |
| Erik McDermott, Shigeru Katagiri, NTT Corporation, Japan |
| Top |
| NEURAL-L2: Blind Source Separation and Independent Component Analysis |
| NEURAL-L2.1: COMPLEX ICA FOR FMRI ANALYSIS: PERFORMANCE OF SEVERAL APPROACHES |
| Vince Calhoun, Institute of Living and Yale University, United States; Tülay Adali, University of Maryland, Baltimore County, United States |
| NEURAL-L2.2: DIFFERENTIAL LEARNING AND RANDOM WALK MODEL |
| Seungjin Choi, Pohang University of Science and Technology, Republic of Korea |
| NEURAL-L2.3: GEOMETRICALLY CONSTRAINT ICA FOR CONVOLUTIVE MIXTURES OF SOUND |
| Mirko Knaak, Technical University of Berlin, Germany; Shoko Araki, Shoji Makino, NTT Corporation, Japan |
| NEURAL-L2.4: A NONLINEAR RECURSIVE LEAST-SQUARES ALGORITHM FOR THE BLIND SEPARATION OF FINITE-ALPHABET SOURCES |
| Scott C. Douglas, Southern Methodist University, United States; Sun-Yuan Kung, Princeton University, United States |
| NEURAL-L2.5: BLIND SIGNAL SEPARATION USING ORIENTED PCA NEURAL MODELS |
| Konstantinos Diamantaras, TEI of Thessaloniki, Greece; Theofilos Papadimitriou, Democritus University of Thrace, Greece |
| NEURAL-L2.6: BLIND EQUALIZATION OF CONSTANT MODULUS SIGNALS VIA SUPPORT VECTOR REGRESSION |
| Ignacio Santamaría, Jesús Ibáñez, Luis Vielva, Carlos Pantaleón, University of Cantabria, Spain |
| Top |
| NEURAL-L3: Neural Networks for Speech Processing |
| NEURAL-L3.1: NEW ENTROPY BASED COMBINATION RULES IN HMM/ANN MULTI-STREAM ASR |
| Hemant Misra, Hervé Bourlard, Vivek Tyagi, IDIAP, Switzerland |
| NEURAL-L3.2: ROBUST SPEAKER VERIFICATION FROM GSM-TRANSCODED SPEECH BASED ON DECISION FUSION AND FEATURE TRANSFORMATION |
| Man-Wai Mak, Ming-Cheung Cheung, Hong Kong Polytechnic University, China; Sun-Yuan Kung, Princeton University, United States |
| NEURAL-L3.3: SEPARATION OF STOP CONSONANTS |
| Guoning Hu, DeLiang Wang, Ohio State University, United States |
| NEURAL-L3.4: CONSTRAINT SATISFACTION MODEL FOR ENHANCEMENT OF EVIDENCE IN RECOGNITION OF CONSONANT-VOWEL UTTERANCES |
| Suryakanth V. Gangashetty, C. Chandra Sekhar, B. Yegnanarayana, Indian Institute of Technology, Madras, India |
| NEURAL-L3.5: A NEURAL NETWORK FOR BLIND IDENTIFICATION OF SPEECH TRANSMISSION INDEX |
| Francis Li, Manchester Metropolitan University, United Kingdom; Trevor Cox, Salford University, United Kingdom |
| NEURAL-L3.6: NEURAL NETWORK BASED ARITHMETIC CODING FOR REAL-TIME AUDIO TRANSMISSION ON THE TMS320C6000 DSP PLATFORM |
| Eros Pasero, Politecnico di Torino, Italy; Alfonso Montuori, Politecnico di torino, Italy |
| Top |
| NEURAL-P1: Architectures and Applications of Neural Networks |
| NEURAL-P1.1: AN FPGA-BASED EIGENFILTER USING FAST HEBBIAN LEARNING |
| Kai Lam, Sui-tung Mak, Chinese University of Hong Kong, China |
| NEURAL-P1.2: GEOMETRICAL UNDERSTANDING OF THE PCA SUBSPACE METHOD FOR OVERDETERMINED BLIND SOURCE SEPARATION |
| Stefan Winter, Hiroshi Sawada, Shoji Makino, NTT Corporation, Japan |
| NEURAL-P1.3: TIME SERIES PREDICTION USING PARAMETRIC MODELS AND MULTILAYER PERCEPTRONS: CASE STUDY ON HEART SIGNALS |
| Rajai El Dajani, Maryvonne Miquel, LISI, France; Pierre Maison-Blanche, INSERM, France; Paul Rubel, LISI-INSERM, France |
| NEURAL-P1.4: RECONSTRUCTIONS AND PREDICTIONS OF NONLINEAR DYNAMICAL SYSTEMS BY RAO-BLACKWELLISED SEQUENTIAL MONTE CARLO |
| Takaya Soma, Kuniaki Yosui, Takashi Matsumoto, Waseda University, Japan |
| NEURAL-P1.5: MULTI-CLASS SUPPORT VECTOR MACHINES: A NEW APPROACH |
| Jeronimo Arenas-Garcia, Fernando Perez-Cruz, Universidad Carlos III de Madrid, Spain |
| NEURAL-P1.6: INTRODUCTION OF SPATIAL INFORMATION WITHIN THE CONTEXT OF EVIDENCE THEORY |
| Anne-Sophie Capelle, Christine Fernandez-Maloigne, Laboratoire IRCOM-SIC, France; Olivier Colot, Laboratoire I3D, France |
| NEURAL-P1.7: A RECURRENT MULTISCALE ARCHITECTURE FOR LONG-TERM MEMORY PREDICTION TASK |
| Stefano Squartini, University of Ancona, Italy; Amir Hussain, University of Stirling, United Kingdom; Francesco Piazza, University of Ancona, Italy |
| NEURAL-P1.8: CONSTRAINED GRADIENT DESCENT AND LINE SEARCH FOR SOLVING OPTIMIZATION PROBLEM WITH ELLIPTIC CONSTRAINTS |
| Ali Hasan, Mohammed Hasan, University of Minnesota, Duluth, Libyan Arab Jamahiriya |
| NEURAL-P1.9: FINDING THE MAXIMUM MODULUS ROOTS OF POLYNOMIALS BASED ON CONSTRAINED NEURAL NETWORKS |
| De-Shuang Huang, Chinese Academy of Sciences, China; Horace H.S Ip, City University of Hong Kong, China |
| NEURAL-P1.10: A METHOD OF GENERATING UNIFORMLY DISTRIBUTED SEQUENCES OVER [0,K] WHERE K+1 IS NOT A POWER OF TWO |
| Richard Kuehnel, US Department of Defense, United States; Yuke Wang, University of Texas, Dallas, United States |
| NEURAL-P1.11: BIRECIPROCAL LATTICE WAVE DIGITAL FILTERS WITH ALMOST LINEAR PHASE RESPONSE |
| Artur Wroblewski, Thomas Erl, Josef A. Nossek, Munich University of Technology, Germany |
| Top |
| NEURAL-P2: Neural Networks for Pattern Recognition and Image Processing |
| NEURAL-P2.1: A MIXTURE MODEL AND EM ALGORITHM FOR ROBUST CLASSIFICATION, OUTLIER REJECTION, AND CLASS DISCOVERY |
| David Miller, John Browning, Pennsylvania State University, United States |
| NEURAL-P2.2: EM MIXTURE MODEL PROBABILITY TABLE COMPRESSION |
| Sung-Jung Cho, Michael Perrone, Eugene Ratzlaff, IBM T. J. Watson Research Center, United States |
| NEURAL-P2.3: DISCRIMINATIVE TRAINING OF TIED MIXTURE DENSITY HMMS FOR ONLINE HANDWRITTEN DIGIT RECOGNITION |
| Roongroj Nopsuwanchai, University of Cambridge, United Kingdom; Alain Biem, IBM T. J. Watson Research Center, United States |
| NEURAL-P2.4: UNSUPERVISED CLUSTERING BASED REDUCED SUPPORT VECTOR MACHINES |
| Songfeng Zheng, Xiaofeng Lu, Nanning Zheng, Weipu Xu, Xi'an JiaoTong University, China |
| NEURAL-P2.5: ROBUST CEPHALOMETRIC LANDMARK IDENTIFICATION USING SUPPORT VECTOR MACHINES |
| Shantanu Chakrabartty, The Johns Hopkins University, United States; Masakazu Yagi, Tadashi Shibata, University of Tokyo, Japan; Gert Cauwenberghs, The Johns Hopkins University, United States |
| NEURAL-P2.6: LEARNING FEATURES FROM EXAMPLES FOR FACE DETECTION |
| Xiaofeng Lu, Songfeng Zheng, Nanning Zheng, Weixiang Liu, Xi'an JiaoTong University, China |
| NEURAL-P2.7: REAL TIME FACE RECOGNITION SYSTEM USING AUTOASSOCIATIVE NEURAL NETWORK MODELS |
| S. Palanivel, B.S. Venkatesh, B. Yegnanarayana, Indian Institute of Technology, Madras, India |
| NEURAL-P2.8: FACE RECOGNITION COMMITTEE MACHINE |
| H. M. Tang, Michael R. Lyu, Irwin King, Chinese University of Hong Kong, Hong Kong SAR of China |
| NEURAL-P2.9: APPEARANCE-BASED NEURAL IMAGE PROCESSING FOR 3-D OBJECT RECOGNITION AND LOCALIZATION |
| Chunrong Yuan, Fraunhofer Institute FIT, Germany; Heinrich Niemann, Universität Erlangen-Nürnberg, Germany |
| NEURAL-P2.10: AN UNIFIED FRAMEWORK FOR SHOT BOUNDARY DETECTION VIA ACTIVE LEARNING |
| Tat-Seng Chua, HuaMin Feng, Chandrashekhara Anantharamu, National University of Singapore, Singapore |
| NEURAL-P2.11: MASS LESION DETECTION WITH A FUZZY NEURAL NETWORK |
| H. D. Cheng, Muyi Cui, Utah State University, United States |
| Top |
| IMSP-L1: Image and Video Indexing and Retrieval |
| IMSP-L1.1: AUTOMATIC RELEVANCE FEEDBACK FOR VIDEO RETRIEVAL |
| Paisarn Muneesawang, Naresuan University, Thailand; Ling Guan, Ryerson University, Canada |
| IMSP-L1.2: RETRIEVAL OF HAND-DRAWN SKETCHES WITH PARTIAL MATCHING |
| Wing Ho Leung, Tsuhan Chen, Carnegie Mellon University, United States |
| IMSP-L1.3: MAXIMAL DISK BASED HISTOGRAM FOR SHAPE RETRIEVAL |
| Wai-Pak Choi, Kin-Man Lam, Wan-Chi Siu, Hong Kong Polytechnic University, Hong Kong SAR of China |
| IMSP-L1.4: SPECTRAL METHOD FOR LEARNING STRUCTURAL VARIATIONS IN GRAPHS |
| Bin Luo, Anhui University, China; Richard Wilson, Edwin Hancock, University of York, United Kingdom |
| IMSP-L1.5: A NEW NON-SEGMENTATION SHAPE-BASED IMAGE INDEXING METHOD |
| Fariborz Mahmoudi, Iran Telecommunication Research Center, Iran; Jamshid Shanbehzadeh, Teacher Training University, Iran; Amir-Masoud Eftekhari-Moghadam, Iran Telecommunication Research Center, Iran; Hamid Soltanian-Zadeh, Teheran University, Iran |
| IMSP-L1.6: ON PREDICTING RARE CLASSES WITH SVM ENSEMBLES IN SCENE CLASSIFICATION |
| Rong Yan, Yan Liu, Rong Jin, Alex Hauptmann, Carnegie Mellon University, United States |
| Top |
| IMSP-L2: Human Movement Analysis and Tracking |
| IMSP-L2.1: TRACKING HUMAN MOVEMENT PATTERNS USING PARTICLE FILTERING |
| Richard Green, University of Sydney, Canada; Ling Guan, Ryerson University, Canada |
| IMSP-L2.2: ROBUST TRACKING AND SEGMENTATION OF HUMAN MOTION IN AN IMAGE SEQUENCE |
| Jose Juarez Gonzalez, Ik Soo Lim, Pascal Fua, Daniel Thalmann, Swiss Federal Institute of Technology (EPFL), Switzerland |
| IMSP-L2.3: COMBINING MULTIPLE EVIDENCES FOR GAIT RECOGNITION |
| Naresh Cuntoor, Amit Kale, Rama Chellappa, University of Maryland, United States |
| IMSP-L2.4: MULTI MOVING PEOPLE DETECTION FROM BINOCULAR SEQUENCES |
| Yang Ran, Qinfen Zheng, University of Maryland, United States |
| IMSP-L2.5: COMPRESSED DOMAIN HUMAN MOTION RECOGNITION USING MOTION HISTORY INFORMATION |
| Venkatesh Babu Radhakrishnan, Kalpathi R Ramakrishnan, Indian Institute of Science, India |
| IMSP-L2.6: AN AUTOMATIC SYSTEM FOR MULTIPLE HUMAN TRACKING AND ACTIONS RECOGNITION IN OFFICE ENVIRONMENT |
| Tan Henry, Ruwan Janapriya, Liyanage C. De Silva, National University of Singapore, Singapore |
| Top |
| IMSP-L3: Watermarking I |
| IMSP-L3.1: HOW TO DESIGN EFFICIENT WATERMARKS? |
| Qiang Cheng, Wayne State University, United States; Yingge Wang, Independent, United States; Thomas Huang, University of Illinois, Urbana-Champaign, United States |
| IMSP-L3.2: DETECTION-THEORETIC ANALYSIS OF WARPING ATTACKS IN SPREAD-SPECTRUM WATERMARKING |
| Alexia Briassouli, Pierre Moulin, University of Illinois, Urbana-Champaign, United States |
| IMSP-L3.3: APPLICATION OF SIDE-INFORMED EMBEDDING AND POLYNOMIAL DETECTION TO AUDIO WATERMARKING |
| Micheal Mullarkey, Neil Hurley, Guenole Silvestre, University College Dublin, Ireland; T. Furon, IRISA/INRIA, France |
| IMSP-L3.4: AFFINE TRANSFORM RESILIENT IMAGE FINGERPRINTING |
| Jin S. Seo, Korea Advanced Institute of Science and Technology, Republic of Korea; Jaap Haitsma, Ton Kalker, Philips Research Eindhoven, Netherlands; Chang D. Yoo, Korea Advanced Institute of Science and Technology, Republic of Korea |
| IMSP-L3.5: ERROR EXPONENTS FOR ONE-BIT WATERMARKING |
| Tie Liu, Pierre Moulin, University of Illinois, Urbana-Champaign, United States |
| IMSP-L3.6: USING DIGITAL WATERMARKS WITH IMAGE SIGNATURES TO MITIGATE THE THREAT OF THE COPY ATTACK |
| John Barr, Brett Bradley, Brett Hannigan, Digimarc, United States |
| Top |
| IMSP-L4: Video Coding I |
| IMSP-L4.1: MOTION COMPENSATED IN-BAND PREDICTION FOR WAVELET-BASED SPATIALLY SCALABLE VIDEO CODING |
| Claudia Mayer, Aachen University (RWTH), Germany |
| IMSP-L4.2: A LAYERED VIDEO CODING SCHEME WITH ITS OPTIMUM BIT ALLOCATION |
| Randa Atta, Mohammed Ghanbari, University of Essex, United Kingdom |
| IMSP-L4.3: UNCONSTRAINED MOTION COMPENSATED TEMPORAL FILTERING (UMCTF) FRAMEWORK FOR WAVELET VIDEO CODING |
| Mihaela van der Schaar, Deepak Turaga, Philips Research USA, United States |
| IMSP-L4.4: IMPROVED SINGLE VIDEO OBJECT RATE CONTROL FOR MPEG-4 |
| Zhenzhong Chen, King Ngi Ngan, Nanyang Technological University, Singapore |
| IMSP-L4.5: BUFFER-CONSTRAINED R-D OPTIMIZED RATE CONTROL FOR VIDEO CODING |
| Lifeng Zhao, C.-C. Jay Kuo, University of Southern California, United States |
| IMSP-L4.6: WAVELET VIDEO CODING VIA A SPATIALLY ADAPTIVE LIFTING STRUCTURE |
| Zhen Li, Purdue University, West Lafayette, United States; Feng Wu, Shipeng Li, Microsoft Research Asia, China; Edward J. Delp, Purdue University, West Lafayette, United States |
| Top |
| IMSP-L5: Image and Video Interpolation |
| IMSP-L5.1: AN EFFICIENT DIRECTIONAL IMAGE INTERPOLATION METHOD |
| Xiqun Lu, Zhejiang University, China; Paul Hong, Mark J. T. Smith, Georgia Institute of Technology, United States |
| IMSP-L5.2: CRAFTING THE OBSERVATION MODEL FOR REGULARIZED IMAGE UP-SAMPLING |
| Hussein Aly, Eric Dubois, University of Ottawa, Canada |
| IMSP-L5.3: INVERTIBLE DEINTERLACING WITH VARIABLE COEFFICIENTS AND ITS LIFTING IMPLEMENTATION |
| Takuma Ishida, Shogo Muramatsu, Hisakazu Kikuchi, Niigata University, Japan; Tetsuro Kuge, NHK, Japan |
| IMSP-L5.4: IMAGE INTERPOLATION USING WAVELET-BASED CONTOUR ESTIMATION |
| Hasan Ates, Princeton University, United States; Michael Orchard, Rice University, United States |
| IMSP-L5.5: FAST GLOBAL MOTION-COMPENSATED FRAME INTERPOLATOR FOR VERY LOW-BIT-RATE VIDEO QUALITY ENHANCEMENT |
| Tien-Ying Kuo, Lin-Ying Chuang, National Taipei University of Technology, Taiwan |
| IMSP-L5.6: LOW RATE VIDEO FRAME INTERPOLATION - CHALLENGES AND SOLUTION |
| Hezerul Abdul Karim, Michel Bister, Muhammad Umar Siddiqi, Multimedia University, Malaysia |
| Top |
| IMSP-L6: Face Recognition |
| IMSP-L6.1: A COMPARISON OF SUBSPACE ANALYSIS FOR FACE RECOGNITION |
| Jian Li, Shaohua Zhou, Chandra Shekhar, University of Maryland, United States |
| IMSP-L6.2: REGULARIZED D-LDA FOR FACE RECOGNITION |
| Juwei Lu, Konstantinos N. Plataniotis, Anastasios N. Venetsanopoulos, University of Toronto, Canada |
| IMSP-L6.3: AN IMPROVED BAYESIAN FACE RECOGNITION ALGORITHM IN PCA SUBSPACE |
| Xiaogang Wang, Xiaoou Tang, Chinese University of Hong Kong, Hong Kong SAR of China |
| IMSP-L6.4: GENERAL ILLUMINATION CORRECTION AND ITS APPLICATION TO FACE NORMALIZATION |
| Juhua Zhu, Bede Liu, Stuart Schwartz, Princeton University, United States |
| IMSP-L6.5: THE INDEXING OF PERSONS IN NEWS SEQUENCES USING AUDIO-VISUAL DATA |
| Alberto Albiol, Politechnic University, Valencia, Spain; Luis Torres, Technical University of Catalonia, Spain; Edward J. Delp, Purdue University, United States |
| IMSP-L6.6: RECOGNIZING FACE IMAGES UNDER DIFFERENT LIGHTING CONDITIONS |
| Haitao Wang, Yangsheng Wang, Chinese Academy of Sciences, China |
| Top |
| IMSP-L7: Motion Estimation |
| IMSP-L7.1: ANALYSIS AND REDUCTION OF REFERENCE FRAMES FOR MOTION ESTIMATION IN MPEG-4 AVC/JVT/H.264 |
| Yu-Wen Huang, Bing-Yu Hsieh, Tu-Chih Wang, Shao-Yi Chient, National Taiwan University, Taiwan; Shyh-Yih Ma, Chun-Fu Shen, Vivotek Incorporation, Taiwan; Liang-Gee Chen, National Taiwan University, Taiwan |
| IMSP-L7.2: STOCHASTIC MODELING OF MOTION TRACKING FAILURES |
| Shiloh Dockstader, Nikita Imennov, A. Murat Tekalp, University of Rochester, United States |
| IMSP-L7.3: AN ADAPTIVE PARTIAL DISTORTION SEARCH FOR BLOCK MOTION ESTIMATION |
| Yui-Lam Chan, Wan-Chi Siu, Hong Kong Polytechnic University, Hong Kong SAR of China |
| IMSP-L7.4: LINEAR AND REGULARIZED SOLUTIONS FOR MULTIPLE MOTIONS |
| Ingo Stuke, Til Aach, University of Luebeck, Germany; Cicero Mota, University of Frankfurt, Germany; Erhardt Barth, University of Luebeck, Germany |
| IMSP-L7.5: EMPIRICAL CHOICE OF SMOOTHING PARAMETERS IN OPTICAL FLOW WITH CORRELATED ERRORS |
| Mingren Shi, Victor Solo, University of New South Wales, Australia |
| IMSP-L7.6: A FREQUENCY-DOMAIN APPROACH FOR THE EXTRACTION OF MOTION PATTERNS |
| Jesus Chamorro-Martinez, Joaquin Fernandez-Valdivia, Jose Antonio Garcia, Javier Martinez-Baena, University of Granada, Spain |
| Top |
| IMSP-L8: Video Summarization |
| IMSP-L8.1: A GENERAL FRAMEWORK FOR SPORTS VIDEO SUMMARIZATION WITH ITS APPLICATION TO SOCCER |
| Baoxin Li, Hao Pan, Ibrahim Sezan, SHARP Laboratories of America, United States |
| IMSP-L8.2: SHOT TYPE CLASSIFICATION BY DOMINANT COLOR FOR SPORTS VIDEO SEGMENTATION AND SUMMARIZATION |
| Ahmet Ekin, University of Rochester, United States; A. Murat Tekalp, University of Rochester, United States / Koc University, Turkey |
| IMSP-L8.3: A MULTI-MODAL-FEATURE BASED ALGORITHM FOR PARSING NEWS PROGRAM VIDEOS |
| Hsuan-Wei Chen, Jin-Hau Kuo, Jen-Hao Yeh, Ja-Ling Wu, Chia-Chiang Ho, National Taiwan University, Taiwan |
| IMSP-L8.4: VIDEO SHOT SEGMENTATION USING SINGULAR VALUE DECOMPOSITION |
| Zuzana Èerneková, Constantine Kotropoulos, Ioannis Pitas, Aristotle University of Thessaloniki, Greece |
| IMSP-L8.5: REAL-TIME CAMERA FIELD-VIEW TRACKING IN SOCCER VIDEO |
| Kongwah Wan, Joo-Hwee Lim, Changsheng Xu, Xinguo Yu, Laboratories for Information Technology, Singapore |
| IMSP-L8.6: A FUSION SCHEME OF VISUAL AND AUDITORY MODALITIES FOR EVENT DETECTION IN SPORTS VIDEO |
| Min Xu, Ling-Yu Duan, Changsheng Xu, Qi Tian, Laboratories for Information Technology, Singapore |
| Top |
| IMSP-P1: Face Analysis |
| IMSP-P1.1: AUTOMATIC 3D FACE VERIFICATION FROM RANGE DATA |
| Gang Pan, Zhaohui Wu, Yunhe Pan, Zhejiang University, China |
| IMSP-P1.2: HMM RECOGNITION OF EXPRESSIONS IN UNRESTRAINED VIDEO INTERVALS |
| Jose Luis Landabaso, Montse Pardas, Antonio Bonafonte, Universitat Politècnica de Catalunya, Spain |
| IMSP-P1.3: A NOVEL PERSONAL BIOMETRIC AUTHENTICATION TECHNIQUE USING HUMAN IRIS BASED ON FRACTAL DIMENSION FEATURES |
| Wen-Shiung Chen, Shang-Yuan Yuan, National Chi Nan University, Taiwan |
| IMSP-P1.4: FACIAL FEATURE TRACKING COMBINING MODEL-BASED AND MODEL-FREE METHOD |
| JianYu Wang, Harbin Institute of Technology, China; Wen Gao, Harbin Institute of Technology / FRJDL, China; Shiguang Shan, FRJDL, China; XiaoPeng Hu, Wuhan University, China |
| IMSP-P1.5: A HIERARCHICAL FRAMEWORK FOR FACE TRACKING USING STATE VECTOR FUSION FOR COMPRESSED VIDEO |
| Jun Wang, Radhakrishna Achanta, Mohan Kankanhalli, Philippe Mulhem, National University of Singapore, Singapore |
| IMSP-P1.6: ROTATED FACE DETECTION IN COLOR IMAGES USING RADIAL TEMPLATE (RT) |
| Heng Liu, Harbin Institute of Technology, China; Shengye Yan, Beijing Polytechnic University, China; Xilin Chen, Harbin Institute of Technology, China; Wen Gao, Institute of Computing Technology, China |
| IMSP-P1.7: A NEW REAL-TIME LIP CONTOUR EXTRACTION ALGORITHM |
| Shi Lin Wang, Wing Hong Lau, Shu-hung Leung, City University of Hong Kong, Hong Kong SAR of China |
| IMSP-P1.8: SOFT MARGIN ADABOOST FOR FACE POSE CLASSIFICATION |
| Ying Guo, Geoff Poulton, Jiaming Li, Mark Hedley, Rong-yu Qiao, CSIRO, Australia |
| IMSP-P1.9: SIMULTANEOUS TRACKING AND RECOGNITION OF HUMAN FACES FROM VIDEO |
| Shaohua Zhou, Rama Chellappa, University of Maryland, United States |
| IMSP-P1.10: CHIN CONTOUR ESTIMATION FOR FACE RECOGNITION |
| Qin-ran Chen, Wai-kuen Cham, Kar-kin Lee, Chinese University of Hong Kong, Hong Kong SAR of China |
| IMSP-P1.11: NOVEL EXAMPLE-BASED SHAPE LEARNING FOR FAST FACE ALIGNMENT |
| Xiujuan Chai, Harbin Institute of Technology, China; Shiguang Shan, Wen Gao, Institute of Computing Technology, China; Bo Cao, Institute of Computing Technolgoy, China |
| IMSP-P1.12: IMPROVING FACE AUTHENTICATION USING VIRTUAL SAMPLES |
| Norman Poh Hoon Thian, Sebastien Marcel, Samy Bengio, IDIAP, Switzerland |
| Top |
| IMSP-P2: Lossless and Lossy Image Coding |
| IMSP-P2.1: A GENERAL FRAMEWORK FOR THE SECOND-LEVEL ADAPTIVE PREDICTION |
| Guang Deng, Hua Ye, LaTrobe University, Australia |
| IMSP-P2.2: PARTITIONED VECTOR QUANTIZATION: APPLICATION TO LOSSLESS COMPRESSION OF HYPERSPECTRAL IMAGES |
| Giovanni Motta, Francesco Rizzo, James Storer, Brandeis University, United States |
| IMSP-P2.3: LEVEL-EMBEDDED LOSSLESS IMAGE COMPRESSION |
| Mehmet Celik, A. Murat Tekalp, University of Rochester, United States; Gaurav Sharma, Xerox Corporation, United States |
| IMSP-P2.4: LOSSLESS AND LOSSY MINIMAL REDUNDANCY PYRAMIDAL DECOMPOSITION FOR SCALABLE IMAGE COMPRESSION TECHNIQUE |
| Marie Babel, Olivier Déforges, UMR CNRS 6164 IETR / INSA Rennes, France |
| IMSP-P2.5: ENHANCED PARTIAL-SPIHT FOR LOSSLESS AND LOSSY IMAGE COMPRESSION |
| Ahmed Abu-Hajar, Ravi Sankar, University of South Florida, United States |
| IMSP-P2.6: MULTIPLE, ARBITRARY SHAPE ROI CODING WITH ZEROTREE BASED WAVELET CODERS |
| Aysegul Cuhadar, Sinan Tasdoken, Carleton University, Canada |
| IMSP-P2.7: SUCCESSIVE BIT-PLANE RATE ALLOCATION TECHNIQUE FOR JPEG2000 IMAGE CODING |
| Yick Ming Yeung, Oscar C. Au, Andy Chang, HKUST, Hong Kong SAR of China |
| IMSP-P2.8: AN IMPROVED EDGE-MODEL BASED REPRESENTATION AND ITS APPLICATION IN IMAGE POST-PROCESSING |
| Chi-Keung Fong, Wai-Kuen Cham, Chinese University of Hong Kong, Hong Kong SAR of China |
| IMSP-P2.9: A NEW FUZZY REINFORCEMENT LEARNING VECTOR QUANTIZATION ALGORITHM FOR IMAGE COMPRESSION |
| Wenhuan Xu, Asoke Nandi, University of Liverpool, United Kingdom; Jihong Zhang, Shenzhen University, China |
| IMSP-P2.10: ERROR RESILIENT PRE-/POST-FILTERING FOR DCT-BASED BLOCK CODING SYSTEMS |
| Chengjie Tu, Trac Tran, Jie Liang, The Johns Hopkins University, United States |
| IMSP-P2.11: EMBEDDED QUADTREE-BASED IMAGE COMPRESSION IN DCT DOMAIN |
| XingSong Hou, GuiZhong Liu, YiYang Zou, Xi'an JiaoTong University, China |
| IMSP-P2.12: CONSTRAINED TEXTURE SYNTHESIS FOR IMAGE POST PROCESSING |
| Yu Hen Hu, Rajas Sambhare, University of Wisconsin, Madison, United States |
| Top |
| IMSP-P3: Multidimensional Signal processing Theory and Methods |
| IMSP-P3.1: TRANSFORMATION OF LOCAL SPATIO-TEMPORAL STRUCTURE TENSOR FIELDS |
| Mats Andersson, Hans Knutsson, Linköping University, Sweden |
| IMSP-P3.2: VECTOR SPACE SOLUTION TO THE MULTIDIMENSIONAL YULE-WALKER EQUATIONS |
| Steven Kay, University of Rhode Island, United States; Christopher Carbone, Naval Undersea Warfare Center, United States |
| IMSP-P3.3: NON-NEGATIVE MATRIX FACTORIZATION FOR VISUAL CODING |
| Weixiang Liu, Nanning Zheng, Xiaofeng Lu, Xi'an Jiaotong University, China |
| IMSP-P3.4: A NEW CLASS OF ENTROPY ESTIMATORS FOR MULTI-DIMENSIONAL DENSITIES |
| Erik Miller, University of California, Berkeley, United States |
| IMSP-P3.5: RECURSIVE FILTERING FOR SPLINES ON HEXAGONAL LATTICES |
| Dimitri Van De Ville, Thierry Blu, Michael Unser, Swiss Federal Institute of Technology (EPFL), Switzerland |
| IMSP-P3.6: MODELING AND ESTIMATION OF SPATIAL RANDOM TREES WITH APPLICATION TO IMAGE CLASSIFICATION |
| Ilya Pollak, Jeffrey Siskind, Mary Harper, Charles Bouman, Purdue University, United States |
| IMSP-P3.7: A FAST AND EFFICIENT COMPUTATIONAL STRUCTURE FOR THE 2D OVER-COMPLETE WAVELET TRANSFORM |
| Ngai-Fong Law, Wan-Chi Siu, Hong Kong Polytechnic University, Hong Kong SAR of China |
| IMSP-P3.8: AUTOMATIC IMAGE REGISTRATION BY STOCHASTIC OPTIMIZATION OF MUTUAL INFORMATION |
| Arlene Cole-Rhodes, Abake Adenle, Morgan State University, United States |
| IMSP-P3.9: SYMMETRIC RESIDUE PYRAMIDS - AN EXTENSION OF BURT LAPLACIAN PYRAMIDS |
| Subrata Rakshit, Malay Nema, Centre for AI and Robotics, India |
| IMSP-P3.10: JOINTLY OPTIMIZED ERROR FEEDBACK AND REALIZATION FOR ROUNDOFF NOISE MINIMIZATION IN TWO-DIMENSIONAL STATE-SPACE DIGITAL FILTERS |
| Takao Hinamoto, Keisuke Higashi, Hiroshima University, Japan; Wu-Sheng Lu, University of Victoria, Canada |
| IMSP-P3.11: A PARALLEL ALGORITHM FOR SOLVING THE EIKONAL EQUATION |
| Eva Dejnozkova, Petr Dokladal, School of Mines of Paris, France |
| IMSP-P3.12: ITERATIVE DECODING OF TWO-DIMENSIONAL HIDDEN MARKOV MODELS |
| Florent Perronnin, Jean-Luc Dugelay, Eurecom Institute, France; Kenneth Rose, University of California, Santa Barbara, United States |
| Top |
| IMSP-P4: Image and Video Segmentation |
| IMSP-P4.1: ROBUST FULLY-AUTOMATIC SEGMENTATION BASED ON MODIFIED EDGE-FOLLOWING TECHNIQUE |
| Y.B. Chen, Oscal T.-C. Chen, National Chung Cheng University, Taiwan |
| IMSP-P4.2: BUILDING EXTRACTION FROM DIGITAL ELEVATION MODELS |
| Mathias Ortner, Xavier Descombes, Josiane Zerubia, INRIA-CNRS-UNSA, France |
| IMSP-P4.3: FAST ESTIMATION OF THE NUMBER OF TEXTURE SEGMENTS USING CO-OCCURRENCE STATISTICS |
| Gou-Chol Pok, Yanbian University of Science and Technology, China; Jyh-Charn Liu, Texas A&M University, United States; Keun Ho Ryu, Chungbuk National University, Republic of Korea |
| IMSP-P4.4: COLOR IMAGE SEGMENTATION USING DENSITY-BASED CLUSTERING |
| Qi xiang Ye, Wen Gao, Chinese Academy of Sciences, China; Wei Zeng, Harbin Institute of Technology, China |
| IMSP-P4.5: REAL-TIME ADAPTIVE BACKGROUND SEGMENTATION |
| Darren Butler, Sridha Sridharan, Queensland University of Technology, Australia; V. Michael Bove Jr, Massachusetts Institute of Technology, United States |
| IMSP-P4.6: ADAPTIVE SKIN SEGMENTATION IN COLOR IMAGES |
| Son Lam Phung, Douglas Chai, Abdesselam Bouzerdoum, Edith Cowan University, Australia |
| IMSP-P4.7: THE GENERALIZED RADIAL HILBERT TRANSFORM AND ITS APPLICATIONS TO 2-D EDGE DETECTION (ANY DIRECTION OR SPECIFIED DIRECTIONS) |
| Soo-Chang Pei, Jian-Jiun Ding, National Taiwan University, Taiwan |
| IMSP-P4.8: SEGMENTATION OF VEHICLES AND PEDESTRIANS IN TRAFFIC SCENE BY SPATIO-TEMPORAL MARKOV RANDOM FIELD MODEL |
| Shunsuke Kamijo, Masao Sakauchi, University of Tokyo, Japan |
| IMSP-P4.9: SUPERVISED VIDEO OBJECT SEGMENTATION USING A SMALL NUMBER OF INTERACTIONS |
| Hanfeng Chen, Feihu Qi, Su Zhang, Shanghai Jiaotong University, China |
| IMSP-P4.10: AN ALGORITHM FOR SEGMENTING MOVING VEHICLES |
| Su Zhang, Hanfeng Chen, Shanghai Jiaotong University, China; Zheru Chi, Hong Kong Polytechnic University, Hong Kong SAR of China; Pengfei Shi, Shanghai Jiao Tong University, China |
| IMSP-P4.11: AN UNSUPERVISED APPROACH TO COLOR VIDEO THRESHOLDING |
| Eliza Yingzi Du, Chein-I Chang, University of Maryland, Baltimore County, United States; Paul D. Thouin, US Department of Defense, United States |
| IMSP-P4.12: A WATERSHED-BASED IMAGE SEGMENTATION USING JND PROPERTY |
| Day-Fann Shen, Ming-Tsong Huang, National Yunlin University of Science & Technology, Taiwan |
| Top |
| IMSP-P5: Video Coding II |
| IMSP-P5.1: RIDGELET TRANSFORM APPLIED TO MOTION COMPENSATED IMAGES |
| Lorenzo Granai, Swiss Federal Institute of Technology (EPFL), Switzerland; Fulvio Moschetti, NTT DoCoMo, Inc., Japan; Pierre Vandergheynst, Swiss Federal Institute of Technology (EPFL), Switzerland |
| IMSP-P5.2: A HEURISTIC SEARCH METHOD OF ADAPTIVE INTERPOLATION FILTERS IN MOTION COMPENSATED PREDICTIVE VIDEO CODING |
| Huipin Zhang, Frank Bossen, DoCoMo USA Labs, United States |
| IMSP-P5.3: FAST INTRA-PREDICTION MODE SELECTION FOR 4X4 BLOCKS IN H.264 |
| Bojun Meng, Oscar C. Au, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| IMSP-P5.4: FULLY SCALABLE TEXTURE CODING OF ARBITRARILY SHAPED VIDEO OBJECTS |
| Habibollah Danyali, Alfred Mertins, University of Wollongong, Australia |
| IMSP-P5.5: A NEW REAL-TIME PATTERN SELECTION ALGORITHM FOR VERY LOW BIT-RATE VIDEO CODING FOCUSING ON MOVING REGIONS |
| Manoranjan Paul, Manzur Murshed, Laurence Dooley, Monash University, Australia |
| IMSP-P5.6: RATE-DISTORTION ANALYSIS OF THE MULTIPLE DESCRIPTION MOTION COMPENSATION VIDEO CODING SCHEME |
| Shunan Lin, Polytechnic University, United States; Anthony Vetro, Mitsubishi Electric Research Laboratories, United States; Yao Wang, Polytechnic University, United States |
| IMSP-P5.7: STRUCTURED "TRUNCATED GOLOMB CODE" FOR CONTEXT-BASED ADAPTIVE VLC |
| Sadaatsu Kato, Kazuo Sugimoto, Satoru Adachi, Minoru Etoh, NTT DoCoMo, Inc., Japan |
| IMSP-P5.8: VIDEO CODING BASED ON TRUE MOTION ESTIMATION |
| Ee Ping Ong, Laboratories for Information Technology, Singapore; Hua Wang, Ping Xue, Nanyang Technological University, Singapore |
| IMSP-P5.9: A NOVEL APPROACH TO FAST MULTI-FRAME SELECTION FOR H.264 VIDEO CODING |
| Andy Chang, Oscar C. Au, Yick Ming Yeung, HKUST, Hong Kong SAR of China |
| IMSP-P5.10: FULLY-SCALABLE WAVELET VIDEO CODING USING IN-BAND MOTION COMPENSATED TEMPORAL FILTERING |
| Yiannis Andreopoulos, Vrije Universiteit Brussel, Belgium; Mihaela van der Schaar, Philips Research USA, United States; Adrian Munteanu, Joeri Barbarien, Peter Schelkens, Jan Cornelis, Vrije Universiteit Brussel, Belgium |
| IMSP-P5.11: EFFICIENT THREE-STEP SEARCH ALGORITHM FOR BLOCK MOTION ESTIMATION IN VIDEO CODING |
| Lap-Pui Chau, Xuan Jing, Nanyang Technological University, Singapore |
| IMSP-P5.12: MULTIPLE DESCRIPTION AND MATCHING PURSUIT CODING FOR VIDEO TRANSMISSION OVER THE INTERNET |
| Hsi-Tzeng Chan, Chung-Lin Huang, National Tsing-Hua University, Taiwan |
| Top |
| IMSP-P6: Image Processing: Applications |
| IMSP-P6.1: SIMULTANEOUS GROUP AND PHASE CORRECTION FOR THE ESTIMATION OF DISPERSIVE PROPAGATING WAVES IN THE TIME-FREQUENCY PLANE |
| Antoine Roueff, Laboratoire des Images et des Signaux, Grenoble, France; Jérôme Mars, Laboratoire des Images et des Signaux, LIS, France; Jocelyn Chanussot, Laboratoire des Images et des Singaux, LIS, France; Helle Pederson, LGIT, France |
| IMSP-P6.2: BLIND ESTIMATION OF LONG IMPULSE RESPONSE AND NON-MINIMUM PHASE WAVELETS: APPLICATION TO SEISMIC DATA |
| Benayad Nsiri, Thierry Chonavel, Jean-Marc Boucher, ENST Bretagne, France |
| IMSP-P6.3: UNSUPERVISED HYPERSPECTRAL IMAGE CLASSIFICATION USING BLIND SOURCE SEPARATION |
| Qian Du, Sumit Chakrarvarty, Texas A&M University, Kingsville, United States |
| IMSP-P6.4: A NEW ALGORITHM FOR RETRIEVAL OF 2D EXPONENTIALS |
| Yibin Zheng, University of Virginia, United States |
| IMSP-P6.5: TWO-DIMENSIONAL FREQUENCY ESTIMATION USING AUTOCORRELATION PHASE FITTING |
| Anthony Sourice, Guy Plantier, Ecole Superieure d'Electronique de l'Ouest, France; Jean-Louis Saumet, Laboratoire de Physiologie, France |
| IMSP-P6.6: SAR IMAGE ENHANCEMENT FOR SMALL TARGET DETECTION |
| Jingxin Zhang, Deakin University, Australia; Jim Schroeder, DSpace Pty Ltd., Australia; Nicholas J Redding, Defence Science and Technology Organisation, Australia |
| IMSP-P6.7: THE FISHER INFORMATION MATRIX FOR TWO-DIMENSIONAL DATA SETS |
| Zhiping Lin, Qiyue Zou, Nanyang Technological University, Singapore; Raimund J. Ober, University of Texas, Dallas, United States |
| IMSP-P6.8: MULTIDIMENSIONAL SIGNAL PROCESSING USING LOWER-RANK TENSOR APPROXIMATION |
| Damien Muti, Salah Bourennane, Institut Fresnel / CNRS UMR 6133, France |
| IMSP-P6.9: HOMOMORPHIC PROCESSING TECHNIQUES FOR NEAR-INFRARED IMAGES |
| Wen-Hung Liao, Dai-Yun Li, National Chengchi University, Taiwan |
| IMSP-P6.10: CARDIAC MOTION AND MATERIAL PROPERTIES ANALYSIS USING DATA CONFIDENCE WEIGHTED EXTENDED KALMAN FILTER FRAMEWORK |
| Huafeng Liu, Lung Ngong Wong, Pengcheng Shi, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| IMSP-P6.11: ON GENERALIZED SAMPLING FOR IMAGE-BASED RENDERING DATA |
| Cha Zhang, Tsuhan Chen, Carnegie Mellon University, United States |
| IMSP-P6.12: STEREOSCOPIC PANORAMIC VIDEO GENERATION USING CENTRO-CIRCULAR PROJECTION TECHNIQUE |
| Chaminda Weerasinghe, Wanqing Li, Philip Ogunbona, Motorola Australian Research Centre, Australia |
| Top |
| IMSP-P7: Image and Video Analysis I |
| IMSP-P7.1: AN ADAPTIVE INITIALIZATION TECHNIQUE FOR COLOR QUANTIZATION BY SELF ORGANIZING FEATURE MAP |
| Chip-Hong Chang, Rui Xiao, Thambipillai Srikanthan, Nanyang Technological University, Singapore |
| IMSP-P7.2: THE LIGHTSPACE CHANGE CONSTRAINT EQUATION (LCCE) WITH PRACTICAL APPLICATION TO ESTIMATION OF THE PROJECTIVITY+GAIN TRANSFORMATION BETWEEN MULTIPLE PICTURES OF THE SAME SUBJECT MATTER |
| Steve Mann, Corey Manders, James Fung, University of Toronto, Canada |
| IMSP-P7.3: CONTEXT-BASED GRAPHICAL MODELING FOR WAVELET DOMAIN SIGNAL PROCESSING |
| Nilanjan Dasgupta, Lawrence Carin, Duke University, United States |
| IMSP-P7.4: TEMPORAL REGISTRATION OF VIDEO SEQUENCES |
| Hui Cheng, Sarnoff Corporation, United States |
| IMSP-P7.5: STATISTICAL SHAPE THEORY FOR ACTIVITY MODELING |
| Namrata Vaswani, University of Maryland, United States; Amit Roy Chowdhury, University Of Maryland, United States; Rama Chellappa, University of Maryland, United States |
| IMSP-P7.6: VIDEO SYNTHESIS OF ARBITRARY VIEWS FOR APPROXIMATELY PLANAR SCENES |
| Amit Roy Chowdhury, Amit Kale, Rama Chellappa, University of Maryland, United States |
| IMSP-P7.7: EVIDENCE-BASED OBJECT TRACKING VIA GLOBAL ENERGY MAXIMIZATION |
| John Carter, Pelo Lappas, Robert Damper, University of Southampton, United Kingdom |
| IMSP-P7.8: DETECTION OF 3D SYMMETRY AXIS FROM FRAGMENTS OF A BROKEN POTTERY BOWL |
| Fenghui Yao, Shimane University, Japan; Guifeng Shao, Seinan Gakuin University, Japan |
| IMSP-P7.9: ``SUPER-RESOLUTION CURVE'' AND IMAGE REGISTRATION |
| Minghui Xia, Bede Liu, Princeton University, United States |
| Top |
| IMSP-P8: Watermarking II |
| IMSP-P8.1: WATERMARKING LOW BIT-RATE ADVANCED SIMPLE PROFILE MPEG-4 BITSTREAMS |
| Adnan Alattar, Digimarc, United States; Eugene Lin, Purdue University, United States; Mehmet Celik, University of Rochester, United States |
| IMSP-P8.2: HIGH CAPACITY REVERSIBLE DATA EMBEDDING AND CONTENT AUTHENTICATION |
| Jun Tian, Digimarc, United States |
| IMSP-P8.3: COLOR IMAGE WATERMARKING USING QUATERNION FOURIER TRANSFORM |
| Patrick Bas, Nicolas Le Bihan, Jean-Marc Chassery, Laboratoire des Images et des Signaux, France |
| IMSP-P8.4: WAVELET FILTER EVALUATION FOR IMAGE WATERMARKING |
| Shih-Hsuan Yang, National Taipei University of Technology, Taiwan |
| IMSP-P8.5: A NOVEL METHOD TO EMBED WATERMARK IN DIFFERENT HALFTONE IMAGES: DATA HIDING BY CONJUGATE ERROR DIFFUSION (DHCED) |
| Ming Sun Fu, Oscar C. Au, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| IMSP-P8.6: AN INVERTIBLE WATERMARKING SCHEME FOR AUTHENTICATION OF ELECTRONIC CLINICAL BRAIN ATLAS |
| Yanjiang Yang, Feng Bao, Information Security Group, Singapore |
| IMSP-P8.7: AN OBJECT BASED WATERMARKING SOLUTION FOR MPEG4 VIDEO AUTHENTICATION |
| Dajun He, Qibin Sun, Qi Tian, Laboratories for Information Technology, Singapore |
| IMSP-P8.8: A SEMI-BLIND ROBUST WATERMARKING FOR DIGITAL IMAGES |
| Quan He, Guangchuan Su, Beijing Institute of Technology, China |
| IMSP-P8.9: RELIABLE DETECTION OF LSB STEGANOGRAPHY BASED ON THE DIFFERENCE IMAGE HISTOGRAM |
| Tao Zhang, University of Information Engineering, China; Xijian Ping, Unversity of Information Engineering, China |
| IMSP-P8.10: A NOVEL ALGORITHM FOR EMBEDDING AND DETECTING DIGITAL WATERMARKS |
| Guo-rui Feng, Ling-ge Jiang, Chen He, Dong-jian Wang, Shanghai Jiaotong University, China |
| IMSP-P8.11: A PARAMETRIC FAMILY OF WAVELET FILTERS FOR DIVERSITY IN WATERMARKING APPLICATION |
| Slaven Marusic, David Tay, Guang Deng, LaTrobe University, Australia |
| IMSP-P8.12: A SYMMETRIC KEY WATERMARK FOR HALFTONE IMAGE |
| Oscar C. Au, Ming Sun Fu, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| Top |
| IMSP-P9: Image and Video Indexing and Retrieval II |
| IMSP-P9.1: JOINT AUDIO VISUAL RETRIEVAL FOR TENNIS BROADCASTS |
| Rozenn Dahyot, Anil Kokaram, Niall Rea, Hugh Denman, University of Dublin, Trinity College, Ireland |
| IMSP-P9.2: INVARIANT CONTENT-BASED IMAGE RETRIEVAL BY WAVELET ENERGY SIGNATURES |
| Chi-Man Pun, University of Macau, Macao SAR of China |
| IMSP-P9.3: GAUSSIAN MIXTURE MODELS OF TEXTURE AND COLOUR FOR IMAGE DATABASE RETRIEVAL |
| Haim Permuter, Joseph Francos, Ben-Gurion University, Israel; Ian Jermyn, INRIA Sophia Antipolis, France |
| IMSP-P9.4: DYNAMIC-SEGMENTATION-BASED FEATURE DIMENSION REDUCTION FOR QUICK AUDIO/VIDEO SEARCHING |
| Akisato Kimura, Kunio Kashino, Takayuki Kurozumi, Hiroshi Murase, NTT Corporation, Japan |
| IMSP-P9.5: IMAGE INDEXING BY MODIFIED COLOR CO-OCCURRENCE MATRIX |
| Seong-O Shim, Tae-Sun Choi, Kwangju Institute of Science and Technology, Republic of Korea |
| IMSP-P9.6: A ROBUST STATISTIC METHOD FOR CLASSIFYING COLOR POLARITY OF VIDEO TEXT |
| Jiqiang Song, Min Cai, Michael R. Lyu, Chinese University of Hong Kong, China |
| IMSP-P9.7: IMAGE RETRIEVAL BASED ON HISTOGRAM OF NEW FRACTAL PARAMETERS |
| Minghong Pi, Mrinal Mandal, Anup Basu, University of Alberta, Canada |
| IMSP-P9.8: REGION-OF-INTEREST BASED FLOWER IMAGES RETRIEVAL |
| Anxiang Hong, Zheru Chi, Hong Kong Polytechnic University, Hong Kong SAR of China; Gang Chen, Zhejiang University, China; Zhiyong Wang, Hong Kong Polytechnic University, Hong Kong SAR of China |
| IMSP-P9.9: SHAPE RETRIEVAL WITH ROBUSTNESS AGAINST PARTIAL OCCLUSION |
| Michael Hoeynck, Jens-rainer Ohm, Aachen University (RWTH), Germany |
| IMSP-P9.10: APPEARANCE INDEXING |
| Guoping Qiu, University of Nottingham, United Kingdom |
| IMSP-P9.11: A NOVEL HISTOGRAM-BIASING FACTOR FOR FAST SORTED HISTOGRAM-BASED MEASUREMENT IN LARGE IMAGE DATABASE RETRIEVAL SYSTEM |
| Chun-Ho Cheung, Lai-Man Po, City University of Hong Kong, Hong Kong SAR of China |
| IMSP-P9.12: 2-D FUNCTIONAL AR MODEL FOR IMAGE IDENTIFICATION |
| Miki Haseyama, Isao Kondo, Hokkaido University, Japan |
| Top |
| IMSP-P10: Image and Video Coding and Quality |
| IMSP-P10.1: JUST-NOTICEABLE-DISTORTION PROFILE WITH NONLINEAR ADDITIVITY MODEL FOR PERCEPTUAL MASKING IN COLOR IMAGES |
| Xiaokang Yang, Weisi Lin, Zhongkang Lu, Ee Ping Ong, Susu Yao, Laboratories for Information Technology, Singapore |
| IMSP-P10.2: PERFORMANCE EVALUATION OF A PERCEPTUAL RINGING DISTORTION METRIC FOR DIGITAL VIDEO |
| Zhizhong Zhe, Hong Ren Wu, Monash University, Australia; Zhenghua Yu, Motorola Australian Research Centre, Australia; Tim Ferguson, Damian Tan, Monash University, Australia |
| IMSP-P10.3: PERCEPTUAL-QUALITY SIGNIFICANCE MAP (PQSM) AND ITS APPLICATION ON VIDEO QUALITY DISTORTION METRICS |
| Zhongkang Lu, Weisi Lin, Ee Ping Ong, Susu Yao, Xiaokang Yang, Laboratories for Information Technology, Singapore |
| IMSP-P10.4: CONTENT-ADAPTIVE FILTERING IN THE UMCTF FRAMEWORK |
| Deepak Turaga, Mihaela van der Schaar, Philips Research USA, United States |
| IMSP-P10.5: A SMOOTH EXTENSION FOR THE NONEXPANSIVE ORTHOGONAL WAVELET DECOMPOSITION OF FINITE LENGTH SIGNALS |
| Toshiyuki Uto, Masaaki Ikehara, Keio University, Japan |
| IMSP-P10.6: EFFICIENT FACE CODING IN VIDEO SEQUENCES COMBINING ADAPTIVE PRINCIPAL COMPONENT ANALYSIS AND A HYBRID CODEC APPROACH |
| Roger Pique, Luis Torres, Technical University of Catalonia, Spain |
| IMSP-P10.7: 3D MOTION VECTOR CODING WITH BLOCK BASE ADAPTIVE INTERPOLATION FILTER ON H.264 |
| Hideaki Kimata, Masaki Kitahara, Yoshiyuki Yashima, NTT Corporation, Japan |
| IMSP-P10.8: RATE-DISTORTION OPTIMIZED DATA PARTITIONING FOR VIDEO USING BACKWARD ADAPTATION |
| Jong Chul Ye, Yingwei Chen, Philips Research - USA, United States |
| IMSP-P10.9: FEW DECODERS IN THE ENCODER: A LOW COMPLEXITY ENCODING STRATEGY FOR H.26L |
| Gabriella Olmo, Cristiano Cucco, Marco Grangetto, Enrico Magli, Politecnico di Torino, Italy |
| IMSP-P10.10: A LOCALLY TEMPORAL ADAPTIVE TRANSFORM SCHEME FOR SUB-BAND VIDEO CODING |
| Oscar Divorra Escoda, Pierre Vandergheynst, Swiss Federal Institute of Technology (EPFL), Switzerland |
| IMSP-P10.11: A FULLY ADAPTIVE PERFORMANCE-SCALABLE DISTANCE-DEPENDENT THRESHOLDING SEARCH ALGORITHM FOR VIDEO CODING |
| Golam Sorwar, Manzur Murshed, Laurence Dooley, Monash University, Australia |
| IMSP-P10.12: THE COMPRESSION OF SIMPLIFIED DYNAMIC LIGHT FIELDS |
| Shing-Chow Chan, King-To Ng, Zhi-Feng Gan, Kin-Lok Chan, University of Hong Kong, Hong Kong SAR of China; Heung-Yeung Shum, Microsoft Research Asia, China |
| Top |
| IMSP-P11: Image and Video Analysis II |
| IMSP-P11.1: MODIFIED CLT-DOMAIN MOTION ESTIMATION |
| Lingyan Bi, South China University of Technology, China; Kwok Ping Chan, University of Hong Kong, Hong Kong SAR of China; Yinglin Yu, South China University of Technology, China |
| IMSP-P11.2: SMOOTH CONSTRAINED BLOCK MATCHING CRITERION FOR MOTION ESTIMATION |
| Xuan Jing, Ce Zhu, Lap-Pui Chau, Nanyang Technological University, Singapore |
| IMSP-P11.3: MOTION FIELD DISCONTINUITY CLASSIFICATION FOR TENSOR-BASED OPTICAL FLOW ESTIMATION |
| Hai-yun Wang, Kai-Kuang Ma, NanYang Technological University, Singapore |
| IMSP-P11.4: A PENTAGONAL FAST BLOCK MATCHING ALGORITHM FOR MOTION ESTIMATION USING ADAPTIVE SEARCH RANGE |
| Yu-Chan Lim, Kyeong-Yuk Min, Jong-Wha Chong, Hanyang Unversity, Republic of Korea |
| IMSP-P11.5: A TRAINABLE RETRIEVAL SYSTEM FOR CARTOON CHARACTER IMAGES |
| Miki Haseyama, Atsushi Matsumura, Hokkaido University, Japan |
| IMSP-P11.6: HISTOGRAM-BASED IMAGE RETRIEVAL USING GAUSS MIXTURE VECTOR QUANTIZATION |
| Sangoh Jeong, Stanford University, United States; Chee Sun Won, Dongguk University, Republic of Korea; Robert M. Gray, Stanford University, United States |
| IMSP-P11.7: A PERCEPTUALLY SIGNIFICANT BLOCK-EDGE IMPAIRMENT METRIC FOR DIGITAL VIDEO CODING |
| Shan Suthaharan, University of North Carolina, Greensboro, United States |
| IMSP-P11.8: DOUBLY-MRF STEREO MATCHING |
| Li Cheng, Terry Caelli, University of Alberta, Canada |
| IMSP-P11.9: A UNIFIED UNSUPERVISED CLUSTERING ALGORITHM AND ITS FIRST APPLICATION TO LANDCOVER CLASSIFICATION |
| Yong Yu, Isabelle Bloch, Ecole Nationale Superieure des Telecommunications, France; Alain Trouve, Universite Paris 13, France |
| IMSP-P11.10: A PEOPLE SIMILARITY BASED APPROACH TO VIDEO INDEXING |
| Peng Wang, Tsinghua University, China; Yu-Fei Ma, Hong-Jiang Zhang, Microsoft Research Asia, China; Shiqiang Yang, Tsinghua University, China |
| IMSP-P11.11: TWO INTELLIGENT ALGORITHMS APPLIED TO AUTOMATIC CHROSOME INCISION |
| Shunren Xia, Zhejing University, China; Weidong Xu, Yutang Shen, Zhejiang University, China |
| IMSP-P11.12: MOVING OBJECT DETECTION FROM MPEG BIT STREAM |
| Zhonghua Liang, Zheng Tan, Ping Wang, Xi'an Jiaotong University, China |
| Top |
| IMSP-P12: Image and Video Restoration |
| IMSP-P12.1: BAYESIAN HIGH RESOLUTION IMAGE RECONSTRUCTION WITH INCOMPLETE MULTISENSOR LOW RESOLUTION SYSTEMS |
| Javier Mateos, Rafael Molina, Universidad de Granada, Spain; Aggelos Katsaggelos, Northwestern University, United States |
| IMSP-P12.2: PARAMETER ESTIMATION IN SUPER-RESOLUTION IMAGE RECONSTRUCTION PROBLEMS |
| Javier Abad, Miguel Vega, Rafael Molina, Universidad de Granada, Spain; Aggelos Katsaggelos, Northwestern University, United States |
| IMSP-P12.3: PEER REGION DETERMINATION BASED IMPULSIVE NOISE DETECTION |
| Ying Fai Ho, Chinese University of Hong Kong, Hong Kong SAR of China |
| IMSP-P12.4: DEBLOCKING ALGORITHM FOR DCT-BASED COMPRESSED IMAGES USING ANISOTROPIC DIFFUSION |
| Euncheol Choi, Moon Gi Kang, Yonsei University, Republic of Korea |
| IMSP-P12.5: NEW CLASS OF IMPULSIVE NOISE REDUCTION FILTERS BASED ON KERNEL DENSITY ESTIMATION |
| Bogdan Smolka, Silesian University of Technology, Poland; Kostas Plataniotis, University of Toronto, Canada; Rastislav Lukac, Slovak Image Processing Center, Slovakia; Anastasios N. Venetsanopoulos, University of Toronto, Canada |
| IMSP-P12.6: A VQ-BASED BLUR IDENTIFICATION ALGORITHM |
| Ryo Nakagaki, Hitachi, Ltd., Japan; Aggelos Katsaggelos, Northwestern University, United States |
| IMSP-P12.7: A PDE-BASED METHOD FOR RINGING ARTIFACT REMOVAL ON GRAYSCALE AND COLOR JPEG2000 IMAGES |
| Pascal Bourdon, Bertrand Augereau, Christian Olivier, Christian Chatellier, University of Poitiers, France |
| IMSP-P12.8: SEPARATION OF SEMIREFLECTIVE LAYERS USING SPARSE ICA |
| Alexander Bronstein, Michael Bronstein, Michael Zibulevsky, Yehoshua Zeevi, Technion - Israel Institute of Technology, Israel |
| IMSP-P12.9: DEBLOCKING OF VIDEO SEQUENCES WITH LAPPED EMBEDDED IDCT |
| Lorenzo Cappellari, University of Padova, Italy; Truong Q. Nguyen, University of California, San Diego, United States |
| IMSP-P12.10: MODEL-BASED SMOOTHING FOR REDUCING ARTIFACTS IN COMPRESSED IMAGES |
| Ju Jia Zou, University of Sydney, Australia; Hong Yan, City University of Hong Kong, Hong Kong SAR of China |
| IMSP-P12.11: ANGULAR MULTICHANNEL SIGMA FILTER |
| Rastislav Lukac, Slovak Image Processing Center, Slovakia; Bogdan Smolka, Silesian University of Technology, Poland; Konstantinos N. Plataniotis, Anastasios N. Venetsanopoulos, University of Toronto, Canada; Pavol Zavarsky, Nagaoka University of Technology, Japan |
| Top |
| SPED-P1: Signal Processing Education |
| SPED-P1.1: SWITCHED CAPACITORS: A BRIDGE BETWEEN ANALOG AND DIGITAL SP |
| Roxana Saint-Nom, Daniel Jacoby, Buenos Aires Institute of Technology, Argentina |
| SPED-P1.2: THE JOY OF LEARNING DSP IN A LARGE CLASS |
| Yong Lian, National University of Singapore, Singapore |
| SPED-P1.3: EVALUATION OF A VIRTUAL TEACHING LABORATORY FOR SIGNAL PROCESSING EDUCATION |
| Eliathamby Ambikairajah, Julien Epps, Ming Sheng, Branko Celler, University of New South Wales, Australia |
| SPED-P1.4: INNOVATIVE COMMUNICATION DESIGN LAB BASED ON PC SOUND CARD AND MATLAB : A SOFTWARE-DEFINED-RADIO OFDM MODEM EXAMPLE |
| Jeng-Kuang Hwang, Yuan-Ze University, Taiwan |
| SPED-P1.5: MAKING A CASE FOR ITERATIVE LINEAR EQUATION SOLVERS IN DSP EDUCATION |
| John Håkon Husøy, Stavanger University College, Norway |
| SPED-P1.6: USING DSP HARDWARE TO TEACH MODEM DESIGN AND ANALYSIS TECHNIQUES |
| Thad Welch, Robert Ives, U.S. Naval Academy, United States; Michael Morrow, University of Wisconsin, United States; Cameron Wright, University of Wyoming, United States |
| SPED-P1.7: TEACHING DIGITAL COMMUNICATIONS: A DSP APPROACH |
| Jesús Ibáñez, Carlos Pantaleón, Luis Vielva, Ignacio Santamaría, University of Cantabria, Spain |
| SPED-P1.8: OPEN-CONTENT SIGNAL PROCESSING LABORATORIES IN CONNEXIONS |
| Swaroop Appadwedula, University of Illinois, Urbana-Champaign, United States; Richard Baraniuk, Rice University, United States; Matthew Berry, Mark Butala, University of Illinois, Urbana-Champaign, United States; Hyeokho Choi, Rice University, United States; Mark Haun, Douglas Jones, University of Illinois, Urbana-Champaign, United States; Michael Kramer, Phonak USA, Inc., United States; Dima Moussa, University of Illinois, Urbana-Champaign, United States; Lee Potter, Ohio State University, United States; Daniel Sachs, Brian Wade, University of Illinois, Urbana-Champaign, United States; Raymond Wagner, Rice University, United States |
| SPED-P1.9: MULTIMEDIA LEARNING OBJECTS FOR DIGITAL SIGNAL PROCESSING IN COMMUNICATIONS |
| Amir Asif, York University, Canada |
| SPED-P1.10: ON-LINE LABORATORIES FOR IMAGE AND TWO-DIMENSIONAL SIGNAL PROCESSING USING 2D J-DSP |
| Muhammad Yasin, Lina Karam, Andreas Spanias, Arizona State University, United States |
| Top |
| SPCOM-L1: Detection |
| SPCOM-L1.1: SPHERE-CONSTRAINED ML DETECTION FOR FREQUENCY-SELECTIVE CHANNELS |
| Haris Vikalo, Babak Hassibi, California Institute of Technology, United States; Urbashi Mitra, University of Southern California, United States |
| SPCOM-L1.2: DETECTION FOR MIMO SYSTEMS WITH IMPRECISE CHANNEL KNOWLEDGE |
| Yunnan Wu, Sun-Yuan Kung, Princeton University, United States |
| SPCOM-L1.3: SEMIDEFINITE PROGRAMMING FOR DETECTION IN LINEAR SYSTEMS -- OPTIMALITY CONDITIONS AND SPACE-TIME DECODING |
| Joakim Jalden, Cristoff Martin, Björn Ottersten, Royal Institute of Technology (KTH), Sweden |
| SPCOM-L1.4: JOINT MAXIMUM-LIKELIHOOD CHANNEL ESTIMATION AND SIGNAL DETECTION FOR SIMO CHANNELS |
| Petre Stoica, Uppsala University, Sweden; Haris Vikalo, Babak Hassibi, California Institute of Technology, United States |
| SPCOM-L1.5: SOFT DECISIONS FOR DQPSK DEMODULATION FOR THE VITERBI DECODING OF THE CONVOLUTIONAL CODES |
| Thushara Hewavithana, Mike Brookes, Imperial College London, United Kingdom |
| SPCOM-L1.6: A NEW LOOK AT THE INFORMATIONAL GAIN OF SOFT DECISIONS |
| Michael Lexa, Don Johnson, Rice University, United States |
| Top |
| SPCOM-L2: Space-Time Coding |
| SPCOM-L2.1: DIFFERENTIAL SPACE-TIME MODULATION WITH TRANSMIT-BEAMFORMING FOR CORRELATED MIMO FADING CHANNELS |
| Xiaodong Cai, University of Minnesota, United States; Georgios B. Giannakis, University of Minnesota , United States |
| SPCOM-L2.2: PROBABILITY OF ERROR FOR TRAINED UNITARY SPACE-TIME MODULATION OVER A GAUSS-INNOVATIONS RICIAN CHANNEL |
| Christian Peel, Lee Swindlehurst, Brigham Young University, United States |
| SPCOM-L2.3: DESIGN OF FULLY-DIVERSE MULTI-ANTENNA CODES BASED ON SP(2) |
| Yindi Jing, Babak Hassibi, California Institute of Technology, United States |
| SPCOM-L2.4: DIFFERENTIAL SPACE-TIME MODULATION WITH FULL SPATIO-SPECTRAL DIVERSITY AND ARBITRARY NUMBER OF TRANSMIT ANTENNAS IN ISI CHANNELS |
| Hongbin Li, Stevens Institute of Technology, United States |
| SPCOM-L2.5: SPACE-TIME MATRIX MODULATION: EXTENSION TO UNKNOWN DOUBLY SELECTIVE MIMO CHANNELS |
| Harold Artes, Franz Hlawatsch, Vienna University of Technology, Austria |
| SPCOM-L2.6: DECISION-FEEDBACK MULTIPLE-SYMBOL DIFFERENTIAL DETECTION OF DIFFERENTIAL SPACE-TIME MODULATION IN CONTINUOUSLY FADING CHANNELS |
| Cong Ling, Kwok Hung Li, Alex Kot, Nanyang Technological University, Singapore |
| Top |
| SPCOM-L3: Multiuser Detection for CDMA |
| SPCOM-L3.1: A NOVEL NONLINEAR GROUP-BLIND MULTIUSER DETECTION TECHNIQUE |
| Lili Wu, Key Lab. of Radar Signal Processing, Xidian University, China; Guisheng Liao, Hui Huang, Xidian University, China |
| SPCOM-L3.2: ROBUST BLIND MULTIUSER DETECTION FOR SYNCHRONOUS CDMASYSTEMS |
| Alex Gershman, Shahram Shahbazpanahi, McMaster University, Canada |
| SPCOM-L3.3: A HYPOTHESIS TESTING APPROACH TO BLIND DS-CDMA USER IDENTIFICATION AND DETECTION VIA CODE-CONSTRAINED SUCCESSIVE CANCELLATION |
| Jinghong Ma, Jitendra Tugnait, Auburn University, United States |
| SPCOM-L3.4: MULTI-USER DETECTION FOR RANDOM PERMUTATION-BASED MULTIPLE ACCESS |
| Martial Coulon, Daniel Roviras, ENSEEIHT/IRIT/TÉSA, France |
| SPCOM-L3.5: A LOW COMPLEXITY HYBRID ALGORITHM FOR ROBUST ITERATIVE MULTIUSER DETECTION |
| Duc Son Pham, Abdelhak Zoubir, Curtin University of Technology, Australia |
| SPCOM-L3.6: A BOOTSTRAP MULTI-USER DETECTOR FOR CDMA BASED ON TIKHONOV REGULARIZATION |
| Christos Kasparis, Robert Piechocki, University of Bristol, United Kingdom; Paul Fletcher, QinetiQ Ltd., United Kingdom; Andrew Nix, University of Bristol, United Kingdom |
| Top |
| SPCOM-L4: Cooperative Systems (Feedback) |
| SPCOM-L4.1: MULTI-USER SPACE-TIME CODING IN COOPERATIVE NETWORKS |
| Paul Anghel, University of Minnesota, United States; Geert Leus, Katholieke Universiteit Leuven, Belgium; Mostafa Kaveh, University of Minnesota, United States |
| SPCOM-L4.2: AN IMPROVED FEEDBACK SCHEME FOR DUAL CHANNEL IDENTIFICATION IN WIRELESS COMMUNICATION SYSTEMS |
| Honghui Xu, Soura Dasgupta, University of Iowa, United States; Zhi Ding, Unversity of California, Davis, United States |
| SPCOM-L4.3: HOW ACCURATE CHANNEL PREDICTION NEEDS TO BE FOR ADAPTIVE MODULATION IN RAYLEIGH MIMO CHANNELS ? |
| Shengli Zhou, Georgios B. Giannakis, University of Minnesota, United States |
| SPCOM-L4.4: EXPLOITING TRANSMISSION SPATIAL DIVERSITY IN FREQUENCY SELECTIVE SYSTEMS WITH FEEDBACK CHANNEL |
| Antonio Pascual-Iserte, Ana I. Pérez-Neira, Polytechnic University of Catalonia, Spain; Miguel Ángel Lagunas Hernández, Telecommunications Technolog. Center of Catalonia, Spain |
| SPCOM-L4.5: MIMO WITH LIMITED FEEDBACK OF CHANNEL STATE INFORMATION |
| Rick Blum, Lehigh University, United States |
| SPCOM-L4.6: OPTIMAL SIGNAL DESIGN FOR ESTIMATION OF CORRELATED MIMO CHANNELS |
| Jayesh Kotecha, Akbar Sayeed, University of Wisconsin, Madison, United States |
| Top |
| SPCOM-L5: Long-code CDMA Receivers |
| SPCOM-L5.1: LINEAR MULTIUSER DETECTION FOR UPLINK LONG-CODE CDMA SYSTEMS |
| Ping Liu, Zhengyuan Xu, University of California, Riverside, United States |
| SPCOM-L5.2: COMPUTATIONAL STRUCTURES FOR BLIND LONG-CODE WCDMA RECEIVERS |
| Alle-Jan van der Veen, Delft University of Technology, Netherlands; Lang Tong, Cornell University, United States |
| SPCOM-L5.3: CHANNEL ESTIMATION OF LONG-CODE CDMA SYSTEMS UTILIZING TRANSMISSION INDUCED CYCLOSTATIONARITY |
| Tongtong Li, Michigan State University, United States; Jitendra Tugnait, Auburn University, United States; Zhi Ding, University of California, Davis, United States |
| SPCOM-L5.4: CODE-TIMING ESTIMATION FOR LONG-CODE CDMA SYSTEMS WITH BANDLIMITED CHIP WAVEFORMS |
| Rensheng Wang, Hongbin Li, Stevens Institute of Technology, United States |
| SPCOM-L5.5: BLIND MMSE MULTIPATH COMBINING FOR LONG-CODE CDMA SYSTEMS |
| Yongpeng Zhang, Ruifeng Zhang, Drexel University, United States |
| SPCOM-L5.6: PERFORMANCE OF A LOW-COMPLEXITY DOWNLINK CHANNEL ESTIMATOR FOR LONG-CODE CDMA SYSTEMS |
| Yan Deng, Zhengyuan Xu, University of California, Riverside, United States |
| Top |
| SPCOM-L6: Ultra-wideband |
| SPCOM-L6.1: NON-DATA AIDED TIMING ACQUISITION OF ULTRA-WIDEBAND TRANSMISSIONS USING CYCLOSTATIONARITY |
| Liuqing Yang, University of Minnesota, United States; Zhi Tian, Michigan Technological University, United States; Georgios B. Giannakis, University of Minnesota, United States |
| SPCOM-L6.2: PERFORMANCE OF UWB RAKE RECEIVERS WITH IMPERFECT TAP WEIGHTS |
| Huaning Niu, James Ritcey, Hui Liu, University of Washington, United States |
| SPCOM-L6.3: N-TONE SIGMA-DELTA UWB-OFDM TRANSMITTER AND RECEIVER |
| Ebrahim Saberinia, Ahmed Tewfik, University of Minnesota, United States |
| SPCOM-L6.4: HIGH RESOLUTION ACQUISITION METHODS FOR WIDEBAND COMMUNICATION SYSTEMS |
| Irena Maravic, Martin Vetterli, Swiss Federal Institute of Technology (EPFL), Switzerland; Kannan Ramchandran, University of California, Berkeley, United States |
| SPCOM-L6.5: COARSE ACQUISITION FOR ULTRA WIDEBAND DIGITAL RECEIVERS |
| Raul Blazquez, Puneet Newaskar, Anantha Chandrakasan, Massachusetts Institute of Technology, United States |
| SPCOM-L6.6: CORRELATION PROPERTIES OF TIME-HOPPING SEQUENCES FOR IMPULSE RADIO |
| Zhenyu Zhang, Fanxin Zeng, Chongqing Communication Institute, China; Lijia Ge, Chongqing Sinotel Digital Communications and Signa, China |
| Top |
| SPCOM-L7: CDMA System Design |
| SPCOM-L7.1: R-CONJUGATE CODES FOR MULTI-CODE CDMA |
| Adam Tarr, Michael Zoltowski, Purdue University, United States |
| SPCOM-L7.2: ADVANCED RECEIVERS FOR MC-CDMA WITH MODIFIED DIGITAL PROLATE FUNCTIONS |
| Ivana Raos, Santiago Zazo, ETSI Telecomunicación UPM, Spain |
| SPCOM-L7.3: ADMISSION CONTROL BASED ACTIVITY DETECTION IN DS/CDMA MOBILE SYSTEMS |
| Thanh Ngoc Bui, University of Melbourne, Australia; Vikram Krishnamurthy, University of British Columbia, Canada; H. Vincent Poor, Princeton University, United States |
| SPCOM-L7.4: OPTIMAL AND SUB-OPTIMAL TRAINING SEQUENCE DESIGN FOR TWO-DIMENSIONAL MAXIMUM-LIKELIHOOD CHANNEL ESTIMATOR FOR SINGLE-CARRIER AND MULTICARRIER QUASISYNCHRONOUS CDMA SYSTEMS |
| A.S. Madhukumar, Kai Yang, Francois Chin, Institute for Infocomm Research, Singapore |
| SPCOM-L7.5: ROBUST POWER CONTROL FOR CDMA NETWORKS SUBJECT TO MODELIZATION ERRORS |
| Michael Anderson, Sylvie Perreau, University of South Australia, Australia |
| SPCOM-L7.6: A METHOD OF GENERATING CHAOTIC SPREAD-SPECTRUM SEQUENCES BASED ON MULTILEVEL QUANTIFICATION |
| An Chengquan, Zhou Tingxian, Harbin Institute of Technology, China |
| Top |
| SPCOM-L8: Transmit Diversity Systems |
| SPCOM-L8.1: BLOCK DIFFERENTIAL ENCODING FOR RAPIDLY FADING CHANNELS |
| Bing Lu, Xiaoli Ma, Georgios B. Giannakis, University of Minnesota, United States |
| SPCOM-L8.2: OPTIMIZING PHYSICAL LAYER DATA TRANSMISSION FOR MINIMAL SIGNAL DISTORTION |
| Don Johnson, Hiram Rodriguez-Diaz, Rice University, United States |
| SPCOM-L8.3: FIXED FRAGMENT-SIZE PACKET TRANSMISSIONS WITH DISTRIBUTED REDUNDANCY OVER MULTIPATH FADING CHANNELS |
| Shuichi Ohno, Hiroshima University, Japan; Georgios B. Giannakis, University of Minnesota, United States |
| SPCOM-L8.4: OPTIMAL SYMBOL MAPPING DIVERSITY FOR MULTIPLE PACKET TRANSMISSIONS |
| Harvind Samra, Zhi Ding, University of California, Davis, United States; Peter Hahn, University of Pennsylvania, United States |
| SPCOM-L8.5: SPATIAL SCHEDULING ALGORITHMS FOR WIRELESS SYSTEMS |
| Diego Bartolomé, Universitat Politècnica de Catalunya, Spain; Antonio Pascual-Iserte, Polytechnic University of Catalonia, Spain; Ana I. Pérez-Neira, Universitat Politècnica de Catalunya, Spain |
| SPCOM-L8.6: A PERFORMANCE STUDY OF DUAL-HOP TRANSMISSIONS WITH FIXED GAIN RELAYS |
| Mazen Hasna, Mohamed-Slim Alouini, University of Minnesota, United States |
| Top |
| SPCOM-L9: Wireless Access and Networking |
| SPCOM-L9.1: A MODIFIED BIT-MAP-ASSISTED DYNAMIC QUEUE PROTOCOL FOR MULTIACCESS WIRELESS NETWORKS WITH FINITE BUFFERS |
| Xin Wang, Jitendra Tugnait, Auburn University, United States |
| SPCOM-L9.2: THROUGHPUT MAXIMIZATION WITH BUFFER CONSTRAINTS IN BROADBAND OFDMA NETWORKS |
| Guoqing Li, Hui Liu, University of Washington, United States |
| SPCOM-L9.3: ENERGY-AWARE SECURE MULTICAST COMMUNICATION IN AD-HOC NETWORKS USING GEOGRAPHIC LOCATION INFORMATION |
| Loukas Lazos, Radha Poovendran, University of Washington, United States |
| SPCOM-L9.4: FREQUENCY-HOPPED NETWORK DIVERSITY MULTIPLE ACCESS FOR SEMI-AD-HOC WIRELESS NETWORKS |
| Goran Dimic, Nicholas Sidiropoulos, University of Minnesota, United States |
| SPCOM-L9.5: COOPERATIVE DIVERSITY THROUGH VIRTUAL ARRAYS IN MULTIHOP NETWORKS |
| Sergio Barbarossa, Gesualdo Scutari, University of Rome ''La Sapienza'', Italy |
| SPCOM-L9.6: PREDICTION OF LONG-RANGE-DEPENDENT DISCRETE-TIME FRACTIONAL BROWNIAN MOTION PROCESS |
| Lei Yao, Milos Doroslovacki, George Washington University, United States |
| Top |
| SPCOM-L10: Exploiting Cyclic Prefixes in OFDM |
| SPCOM-L10.1: AN OPTIMUM OFDM RECEIVER EXPLOITING CYCLIC PREFIX FOR IMPROVED DATA ESTIMATION |
| Alireza Tarighat, Ali Sayed, University of California, Los Angeles, United States |
| SPCOM-L10.2: ZERO-FORCING FREQUENCY DOMAIN EQUALIZATION FOR DMT SYSTEMS WITH INSUFFICIENT GUARD INTERVAL |
| Tanja Karp, Texas Tech University, United States; Martin J. Wolf, Mannheim University, Germany; Steffen Trautmann, Telecommunications Research Center Vienna (FTW), Austria; Norbert J. Fliege, Mannheim University, Germany |
| SPCOM-L10.3: MINIMUM-OUTPUT-ENERGY METHOD FOR BLIND EQUALIZATION OF OFDM AND SYSTEMS WITH SUFFICIENT OR INSUFFICIENT CYCLIC PREFIX |
| Taewoo Han, Xiaohua(Edward) Li, State University of New York at Binghamton, United States |
| SPCOM-L10.4: MMSE OFDM AND PREFIXED SINGLE CARRIER SYSTEMS: BER ANALYSIS |
| Yuan-Pei Lin, National Chiao Tung University, Taiwan; See-May Phoong, National Taiwan University, Taiwan |
| SPCOM-L10.5: NON-DATA AIDED ADAPTIVE CHANNEL SHORTENING FOR EFFICIENT MULTI-CARRIER SYSTEMS |
| Francesca Romano, EDS ITALIA 7 , Italy; Sergio Barbarossa, University of Rome ''La Sapienza'', Italy |
| SPCOM-L10.6: CHANNEL MODELING AND ASSOCIATED INTER-CARRIER INTERFERENCE EQUALIZATION FOR OFDM SYSTEMS WITH HIGH DOPPLER SPREAD |
| Maxime Guillaud, Dirk Slock, Eurecom Institute, France |
| Top |
| SPCOM-P1: Coding and Compression |
| SPCOM-P1.1: RATE-DISTORTION ANALYSIS OF BACKWARD ADAPTIVE TRANSFORM CODING SCHEMES |
| David Mary, Dirk Slock, Eurecom Institute, France |
| SPCOM-P1.2: MULTIRATE STRUCTURES FOR ARBITRARY RATE ERROR CONTROL CODING |
| Amir Salman Avesti-Mehr, Kambiz Nayebi, Sharif University of Technology, Iran; Shohreh Kasaei, Sharif University Of technology, Iran |
| SPCOM-P1.3: OVERSAMPLED FILTERBANKS SEEN AS CHANNEL CODES: IMPULSE NOISE CORRECTION |
| Jiu Chiu Chiang, Michel Kieffer, Pierre Duhamel, LSS-Supelec-Universite Paris-Sud, France |
| SPCOM-P1.4: QUANTIZED FRAME EXPANSIONS BASED ON TREE-STRUCTURED OVERSAMPLED FILTER BANKS FOR ERASURE RECOVERY |
| Ravi Motwani, IIT, Kanpur, India; Christine Guillemot, IRISA Research Labs., France |
| SPCOM-P1.5: SUBSPACE ALGORITHMS FOR ERROR LOCALIZATION WITH DFT CODES |
| Gagan Rath, Christine Guillemot, IRISA-INRIA, France |
| SPCOM-P1.6: ERROR-RESILIENT BINARY MULTIPLEXED SOURCE CODES |
| Hervé Jégou, IRISA/ENS Cachan, France; Christine Guillemot, IRISA/INRIA, France |
| SPCOM-P1.7: A NOVEL DECODING PROCEDURE FOR REAL FIELD ERROR CONTROL CODES IN THE PRESENCE OF QUANTIZATION NOISE |
| Paeiz Azmi, Tarbiat Modarres University , Iran; Farokh Marvasti, Iran Telecommunication Research Center, Iran |
| SPCOM-P1.8: CONVERGENCE BEHAVIOR OF ITERATIVE SOURCE-CHANNEL DECODING |
| Marc Adrat, Ulrich von Agris, Peter Vary, Aachen University (RWTH), Germany |
| SPCOM-P1.9: ERROR CORRECTION BY MEANS OF ARITHMETIC CODES: AN APPLICATION TO RESILIENT IMAGE TRANSMISSION |
| Marco Grangetto, Gabriella Olmo, Politecnico di Torino, Italy; Pamela Cosman, University of California, San Diego, United States |
| SPCOM-P1.10: BIT-PLANE GOLOMB CODING FOR SOURCES WITH LAPLACIAN DISTRIBUTIONS |
| Rongshan Yu, Laboratories for Information Technology, A*STAR, Singapore; Chi Chung Ko, National University of Singapore, Singapore; Susanto Rahardja, Xiao Lin, Laboratories for Information Technology, Singapore |
| SPCOM-P1.11: INTERACTIVE VIDEO CODING AND TRANSMISSION OVER WIRED-TO-WIRELESS IP NETWORKS USING AN EDGE PROXY |
| Yong Pei, James Modestino, University of Miami, United States |
| Top |
| SPCOM-P2: Blind Source Separation/Identification |
| SPCOM-P2.1: BLIND MIMO PARAUNITARY EQUALIZER |
| Ludwig Rota, Pierre Comon, Sylvie Icart, Laboratoire I3S, France |
| SPCOM-P2.2: BLIND DECONVOLUTION OF FIR CHANNELS WITH BINARY SOURCES: A GROUPING DECISION APPROACH |
| Yuanqing Li, Andrzej Cichocki, Liqing Zhang, RIKEN Brain Science Institute, Japan |
| SPCOM-P2.3: A CLOSED-FORM SOLUTION TO BLIND MIMO FIR CHANNEL EQUALIZATION FOR WIRELESS COMMUNICATION SYSTEMS BASED ON AUTOCORRELATION MATCHING |
| Hui Luo, AT&T Labs - Research, United States; Ruey-Wen Liu, University of Notre Dame, United States |
| SPCOM-P2.4: MATCHED PDF-BASED BLIND EQUALIZATION |
| Marcelino Lazaro, Ignacio Santamaría, Carlos Pantaleón, University of Cantabria, Spain; Deniz Erdogmus, Jose C. Principe, University of Florida, United States |
| SPCOM-P2.5: BLIND SEPARATION OF BPSK SIGNALS USING NEWTON'S METHOD ON THE STIEFEL MANIFOLD |
| Jun Lu, Timothy Davidson, Zhi-Quan Luo, McMaster University, Canada |
| SPCOM-P2.6: BLIND IDENTIFICATION OF MIMO SYSTEMS BY A SYSTEM TO HOS BASED INVERSE FILTER RELATIONSHIP |
| Chong-Yung Chi, Ching-Yung Chen, National Tsing-Hua University, Taiwan; Chii-Horng Chen, ADMtek Incorporated, Taiwan |
| SPCOM-P2.7: BLIND DECONVOLUTION OF DYNAMICAL SYSTEMS USING A BALANCED PARAMETERIZED STATE SPACE APPROACH |
| Ah Chung Tsoi, L S Ma, University of Wollongong, Australia |
| SPCOM-P2.8: BLIND CHANNEL IDENTIFICATION ROBUST TO ORDER OVERESTIMATION : A CONSTANT MODULUS APPROACH |
| Anahid Safavi, Karim Abed-Meraim, Telecom-Paris, France |
| SPCOM-P2.9: A SUBSPACE ALGORITHM FOR GUARD INTERVAL BASED CHANNEL IDENTIFICATION AND SOURCE RECOVERY REQUIRING JUST TWO RECEIVED BLOCKS |
| Duong H. Pham, Jonathan H. Manton, University of Melbourne, Australia |
| SPCOM-P2.10: A LOW-COMPLEXITY ADAPTIVE BLIND SUBSPACE CHANNEL ESTIMATION ALGORITHM |
| Wei Kang, McGill University , Canada; Benoit Champagne, McGill University, Canada |
| SPCOM-P2.11: MAXIMUM LIKELIHOOD METHOD FOR BLIND IDENTIFICATION OF MULTIPLE AUTOREGRESSIVE CHANNELS |
| Zheng Fang, Yingbo Hua, University of California, Riverside, United States |
| SPCOM-P2.12: ON THE NUMBER OF SAMPLES NEEDED TO IDENTIFY A MIXTURE OF FINITE ALPHABET CONSTANT MODULUS SIGNALS |
| Amir Leshem, Bar Ilan University, Israel; Alle-Jan van der Veen, Delft University of Technology, Netherlands |
| Top |
| SPCOM-P3: Space-Time Coding, MIMO Capacity |
| SPCOM-P3.1: CONCATENATED SPACE-TIME CODING WITH OPTIMAL TRADE-OFF BETWEEN DIVERSITY AND CODING GAINS |
| Gesualdo Scutari, Giancarlo Paccapeli, Sergio Barbarossa, University of Rome ''La Sapienza'', Italy |
| SPCOM-P3.2: QPSK ORTHOGONAL SPACE-TIME CODING SCHEME WITH FULL-RATE AND FULL-DIVERSITY FOR SYSTEM WITH FOUR TRANSMIT ANTENNAS |
| Lei He, Hongya Ge, New Jersey Institute of Technology, United States |
| SPCOM-P3.3: AN OPTIMAL RECEIVER FOR TRANSMISSION DIVERSITY OVER UNCERTAIN CHANNELS |
| Hamidreza Saligheh Rad, Saeed Gazor, Queen's University at Kingston, Canada |
| SPCOM-P3.4: ON OPTIMAL CONSTELLATIONS FOR QUASI-ORTHOGONAL SPACE-TIME CODES |
| Aydin Sezgin, Eduard Jorswieck, Heinrich-Hertz-Institut, Berlin, Germany |
| SPCOM-P3.5: JOINT BLIND AND SEMI-BLIND DETECTION AND CHANNEL ESTIMATION FOR SPACE-TIME TRELLIS CODED SYSTEMS |
| Robert Piechocki, Christophe Andrieu, Andrew Nix, Joe McGeehan, University of Bristol, United Kingdom |
| SPCOM-P3.6: MULTIPLE TRELLIS CODED DIFFERENTIAL UNITARY SPACE-TIME MODULATION IN RAYLEIGH FLAT FADING |
| Zhenyu Sun, National University of Singapore, Singapore; Tjhung Tjeng Thiang, Institute for Communications Research, Singapore |
| SPCOM-P3.7: CAPACITY ANALYSIS FOR PARALLEL AND SEQUENTIAL MIMO EQUALIZERS |
| Xinying Zhang, Sun-Yuan Kung, Princeton University, United States |
| SPCOM-P3.8: ANTENNA SATURATION EFFECTS ON DENSE ARRAY MIMO CAPACITY |
| Tony Pollock, Thushara Abhayapala, Rodney Kennedy, Australian National University, Australia |
| SPCOM-P3.9: OPTIMALITY RANGE OF TRANSMISSION OVER DIFFERENT TERMINALS IN COOPERATIVE MULTIANTENNA SYSTEMS |
| Tobias Josef Oechtering, Holger Boche, Technical University of Berlin, Germany |
| SPCOM-P3.10: ANALYSIS OF DIVERSITY, BEAMFORMING AND HYBRID DIVERSITY-BEAMFORMING SYSTEMS |
| Mahdi Nezafat, Mostafa Kaveh, University of Minnesota, United States |
| SPCOM-P3.11: OPTIMAL POWER ALLOCATION FOR MISO SYSTEMS AND COMPLETE CHARACTERIZATION OF THE IMPACT OF CORRELATION ON THE CAPACITY |
| Holger Boche, Technical University of Berlin, Germany; Eduard Jorswieck, Heinrich-Hertz-Institut, Berlin, Germany |
| SPCOM-P3.12: THE EFFECTS OF CHANNEL CORRELATION ON MAXIMAL RATIO COMBINING PERFORMANCE IN THE PRESENCE OF COCHANNEL INTERFERERS |
| Yeliz Tokgoz, Bhaskar Rao, University of California, San Diego, United States |
| Top |
| SPCOM-P4: Space-time Block Coding and MIMO-OFDM |
| SPCOM-P4.1: SPACE-TIME EQUALIZATION BASED ON V-BLAST AND DFE FOR FREQUENCY SELECTIVE MIMO CHANNELS |
| Andreas Voulgarelis, Michael Joham, Wolfgang Utschick, Institute for Circuit Theory and Signal Processing, Germany |
| SPCOM-P4.2: JOINT FREQUENCY-DOMAIN ADAPTIVE EQUALIZATION AND INTERFERENCE CANCELLATION FOR MULTI-USER SPACE-TIME BLOCK-CODED SYSTEMS |
| Waleed Younis, Ali Sayed, University of California, Los Angeles, United States; Naofal Al-Dhahir, AT&T Labs - Research, United States |
| SPCOM-P4.3: AN EM-BASED CHANNEL ESTIMATION ALGORITHM FOR SPACE-TIME AND SPACE-FREQUENCY BLOCK CODED OFDM |
| Xiaoqiang Ma, Hisashi Kobayashi, Stuart Schwartz, Princeton University, United States |
| SPCOM-P4.4: TIME-DOMAIN METHOD FOR TRACKING DISPERSIVE CHANNELS IN MIMO OFDM SYSTEMS |
| Timo Roman, Mihai Enescu, Visa Koivunen, Helsinki University of Technology, Finland |
| SPCOM-P4.5: A NEW TRAINING SYMBOL STRUCTURE TO ENHANCE THE PERFORMANCE OF CHANNEL ESTIMATION FOR MIMO-OFDM SYSTEMS |
| Myeongcheol Shin, Hakju Lee, Chungyong Lee, Dae Hee Youn, Yonsei University, Republic of Korea |
| SPCOM-P4.6: A GENERALIZED EXPONENTIAL BER BOUND FOR POWER ALLOCATION WITH IMPERFECT CHANNEL ESTIMATES |
| Francesc Rey, Meritxell Lamarca, Gregori Vazquez, Universitat Politecnica de Catalunya, Spain |
| SPCOM-P4.7: OPTIMAL POWER ALLOCATION FOR MSE AND BIT-LOADING IN MIMO SYSTEMS AND THE IMPACT OF CORRELATION |
| Thomas Haustein, Holger Boche, Heinrich-Hertz-Institut, Berlin, Germany |
| SPCOM-P4.8: ADAPTIVE BIT ALLOCATION FOR SPACE-TIME BLOCK CODED OFDM SYSTEM |
| Mohammad Torabi, M. Reza Soleymani, Concordia University, Canada |
| SPCOM-P4.9: SPACE-TIME EQUALIZATION AND INTERFERENCE CANCELLATION WITH CONVOLUTIONAL CODING FOR MIMO OFDM |
| Mark Breinholt, Michael Zoltowski, Purdue University, United States |
| SPCOM-P4.10: DOWNLINK CHANNELS IDENTIFICATION FOR SPACE-TIME CODED MULTIPLE-INPUT MULTIPLE-OUTPUT MC-CDMA SYSTEMS |
| Xiaojun Wu, Tsinghua University, China; Qinye Yin, Yanxing Zeng, Xi'an Jiaotong University, China |
| SPCOM-P4.11: TURBO RECEIVERS FOR NARROW-BAND MIMO SYSTEMS |
| Cesar Hermosilla, Universidad Tecnica Federico Santa Maria, Chile; Leszek Szczecinski, INRS-EMT, Canada |
| SPCOM-P4.12: DECISION FEEDBACK TURBO EQUALIZATION FOR SPACE-TIME CODED SYSTEMS |
| Miguel González-López, Joaquín Míguez, Luis Castedo, Universidad de A Coruña, Spain |
| Top |
| SPCOM-P5: CDMA Receivers |
| SPCOM-P5.1: NOVEL CHANNEL ESTIMATION ALGORITHM USING KALMAN FILTER FOR DS-CDMA RAYLEIGH FADING CHANNEL |
| Kuk-Jin Song, Sug-Ky Hong, LG Electronics, Republic of Korea; Sung-Yoon Jung, Dong-Jo Park, Korea Advanced Institute of Science and Technology, Republic of Korea |
| SPCOM-P5.2: BLIND (TRAINING-LIKE) DECODER ASSISTED BEAMFORMING FOR DS-CDMA SYSTEMS |
| Ryan Pacheco, Dimitrios Hatzinakos, University of Toronto, Canada |
| SPCOM-P5.3: BLIND MULTIUSER CHANNEL ESTIMATION IN TIME-VARYING DIRECT SEQUENCE CODE DIVISION MULTIPLE ACCESS SYSTEMS |
| Weilin Luo, Jitendra Tugnait, Auburn University, United States |
| SPCOM-P5.4: PARTICLE FILTERING FOR JOINT SYMBOL AND PARAMETER ESTIMATION IN DS SPREAD SPECTRUM SYSTEMS |
| Elena Punskaya, Arnaud Doucet, William Fitzgerald, University of Cambridge, United Kingdom |
| SPCOM-P5.5: BLIND MULTIUSER DETECTION BASED ON LINEAR CONSTRAINED MMSE |
| Shangkun Xiong, Fangjiong Chen, Gang Wei, South China University of Technology, China |
| SPCOM-P5.6: A LINEAR SMOOTHING METHOD FOR ENHANCING NEAR-FAR RESISTANCE OF CDMA DETECTORS |
| Xiaodong Yue, Howard Fan, University of Cincinnati, United States |
| SPCOM-P5.7: IMPROVED PARALLEL INTERFERENCE CANCELLATION BASED ON CONDITIONAL LIKELIHOOD FUNCTION |
| Feng Xu, Guizhong Liu, Zhaohua Zeng, Xi'an Jiaotong University, China |
| SPCOM-P5.8: MATRIX GRADUATED NONCONVEXITY ANNEALED NEURAL NETWORK FOR DS-CDMA MULTIUSER DETECTOR |
| Bijaya Nepal, Moe Hsiang Tan, Tjeng Thiang Tjhung, Yong Huat Chew, Institute for Communications Research, Singapore |
| SPCOM-P5.9: INTERFERENCE SUPPRESSION FOR UPLINK MULTIUSER CDMA |
| Zi-Wei Zheng, Tsinghua University / Dalian Maritime University, China; Zhi-Xing Yang, Tsinghua University, China; Yi-Sheng Zhu, Dalian Maritime University, China |
| SPCOM-P5.10: AN ADAPTIVE STEP-SIZE CODE-CONSTRAINED MINIMUM OUTPUT ENERGY RECEIVER FOR NONSTATIONARY CDMA CHANNELS |
| Peerapol Yuvapoositanon, Mahanakorn University of Technology, Thailand; Jonathon Chambers, King's College London, United Kingdom |
| SPCOM-P5.11: ENHANCED INTERFERENCE SUPPRESSION FOR SPECTRUM-EFFICIENT HIGH DATA-RATE TRANSMISSIONS OVER WIDEBAND CDMA NETWORKS |
| Sofiène Affes, INRS-Telecommunications, University of Quebec, Canada; Karim Cheikhrouhou, École Nationale d'Ingénieurs de Tunis, Tunisia; Paul Mermelstein, INRS-Telecommunications, University of Quebec, Canada |
| SPCOM-P5.12: JAMMER EXCISION IN SPREAD SPECTRUM COMMUNICATIONS VIA WIENER MASKING AND FREQUENCY-FREQUENCY EVOLUTIONARY TRANSFORM |
| Luis F. Chaparro, Abdullah Alshehri, University of Pittsburgh, United States |
| Top |
| SPCOM-P6: Channel Estimation and Equalization |
| SPCOM-P6.1: EFFICIENT MULTIPATH CHANNEL ESTIMATION USING A SEMI-BLIND PARAMETRIC TECHNIQUE |
| Athanasios Rontogiannis, University of Ioannina, Greece; Alexandra Marava, Kostas Berberidis, University of Patras, Greece; Jacques Palicot, INRIA, France |
| SPCOM-P6.2: TIME-OF-ARRIVAL (TOA) ESTIMATION BASED STRUCTURED SPARSE CHANNEL ESTIMATION ALGORITHM, WITH APPLICATIONS TO DIGITAL TV RECEIVERS |
| Serdar Özen, Michael Zoltowski, Purdue University, United States |
| SPCOM-P6.3: MMSE TIME-VARYING FIR EQUALIZATION OF DOUBLY-SELECTIVE CHANNELS |
| Geert Leus, Imad Barhumi, Marc Moonen, ESAT-Katholieke Universiteit Leuven, Belgium |
| SPCOM-P6.4: COMBINED EQUALIZATION AND NONLINEAR DISTORITON CANCELLATION FOR TRANSMISSION OF QAM SIGNAL IN FIXED WIRELESS CHANNEL |
| Jae-Ho Ryu, Yong-Hwan Lee, Seoul National University, Republic of Korea |
| SPCOM-P6.5: CHANNEL EQUALIZATION AND THE BAYES POINT MACHINE |
| Edward Harrington, Jyrki Kivinen, Robert Williamson, Australian National University, Australia |
| SPCOM-P6.6: ELECTRONIC EQUALIZATION IN OPTICAL FIBER COMMUNICATIONS |
| Tülay Adali, Wei Wang, Aurenice O. Lima, University of Maryland, Baltimore County, United States |
| SPCOM-P6.7: ON PHASE-SPACE EQUALIZATION OF CPM IN SEVERE INTERSYMBOL INTERFERENCE |
| Frank Althaus, Armin Wittneben, ETH, Switzerland |
| SPCOM-P6.8: DECISION FEEDBACK EQUALIZER DESIGN FOR INSENSITIVITY TO DECISION DELAY |
| William Hillery, Michael Zoltowski, Purdue University, United States; Mark Fimoff, Zenith Electronics, United States |
| SPCOM-P6.9: MULTI-STAGE MMSE DECISION FEEDBACK EQUALIZATION FOR EDGE |
| Guido Dietl, Christian Mensing, Wolfgang Utschick, Josef A. Nossek, Munich University of Technology, Germany; Michael Zoltowski, Purdue University, United States |
| SPCOM-P6.10: BLIND SYMBOL DETECTION AND CHANNEL ACQUISITION IN FAST-FADING WIRELESS SYSTEMS WITH SPACE DIVERSITY |
| Tiago Patrão, João Xavier, Victor Barroso, Instituto Superior Técnico - ISR, Portugal |
| SPCOM-P6.11: FREQUENCY ESTIMATION USING THE PULSE-PAIR METHOD IN DIFFERENT FADING ENVIRONMENTS |
| Zhi Wang, Saman Abeysekera, Nanyang Technological University, Singapore |
| SPCOM-P6.12: AN EFFICIENT ARCHITECTURE FOR HIGH SPEED TURBO DECODERS |
| Aliazam Abbasfar, Kung Yao, University of California, Los Angeles, United States |
| Top |
| SPCOM-P7: OFDM/DMT System Design |
| SPCOM-P7.1: PAR REDUCTION IN OFDM VIA ACTIVE CONSTELLATION EXTENSION |
| Brian Krongold, University of Melbourne, Australia; Douglas Jones, University of Illinois, Urbana-Champaign, United States |
| SPCOM-P7.2: COMPUTATION OF THE CONTINUOUS-TIME PAR OF AN OFDM SIGNAL |
| Hua Yu, Gang Wei, South China University of Technology, China |
| SPCOM-P7.3: EGRESS REDUCTION BY INTRA-SYMBOL WINDOWING IN DMT-BASED TRANSMITTERS |
| Gert Cuypers, Koen Vanbleu, Geert Ysebaert, Marc Moonen, KULeuven, Belgium |
| SPCOM-P7.4: TIME DELAY ESTIMATION IN DIGITAL PRE-DISTORTION |
| Hugo Durney, Josep Sala, Universitat Politècnica de Catalunya, Spain |
| SPCOM-P7.5: A DETERMINISTIC ALGORITHM THAT ACHIEVES THE PMEPR OF C LOG(N) FOR MULTICARRIER SIGNALS |
| Masoud Sharif, Babak Hassibi, California Institute of Technology, United States |
| SPCOM-P7.6: ON THE DISCRETE COSINE TRANSFORM AND OFDM SYSTEMS |
| Giridhar Mandyam, Nokia Research Center, United States |
| SPCOM-P7.7: PERFORMANCE ANALYSIS OF MULTIUSER DETECTORS FOR MC-CDMA IN THE PRESENCE OF FREQUENCY OFFSET |
| Mashury Mashury, Curtin University of Technology, Australia |
| SPCOM-P7.8: OPTIMUM BIORTHOGONAL DMT SYSTEMS FOR MULTI-SERVICE COMMUNICATION |
| Soura Dasgupta, Ashish Pandharipande, University of Iowa, United States |
| SPCOM-P7.9: DESIGN OF M-BAND COMPLEX-VALUED FILTER BANKS FOR MULTICARRIER TRANSMISSION OVER MULTIPATH WIRELESS CHANNELS |
| Yuhong Wang, Xiao-Ping Zhang, Ryerson University, Canada |
| SPCOM-P7.10: EFFECT OF PARTIAL BAND JAMMING ON OFDM-BASED WLAN IN 802.11G |
| Jeongho Park, Yonsei University, Republic of Korea; Dongkyu Kim, Samsung Electronics Co., Republic of Korea; Changeon Kang, Daesik Hong, Yonsei University, Republic of Korea |
| SPCOM-P7.11: ON ADAPTIVE CANCELLATION OF IQ MISMATCH IN OFDM RECEIVERS |
| Saeed Fouladifard, Hamid Shafiee, University of Tehran, Iran |
| SPCOM-P7.12: LINEAR RF POWER AMPLIFIER DESIGN FOR WIRELESS SIGNALS: A SPECTRUM ANALYSIS APPROACH |
| Chunming Liu, Portland State University, United States; Heng Xiao, Lucent Technologies, United States; Qiang Wu, Maxim Integrated Products, Inc., United States; Fu Li, Portland State University, United States |
| Top |
| SPCOM-P8: Synchronization and Timing Recovery |
| SPCOM-P8.1: SECOND-ORDER CYCLOSTATIONARY APPROACH TO NDA ML SQUARE TIMING ESTIMATION WITH FREQUENCY UNCERTAINTY |
| Jose Antonio Lopez-Salcedo, Gregori Vazquez, Universitat Politecnica de Catalunya, Spain |
| SPCOM-P8.2: NON-DATA-AIDED CARRIER FREQUENCY OFFSET ESTIMATION OF GMSK SIGNALS IN BURST MODE TRANSMISSION |
| Hua Peng, Jing Li, Lindong Ge, Information Engineering University, China |
| SPCOM-P8.3: BER PERFORMANCE OF SOFTWARE RADIO MULTIRATE RECEIVERS WITH NONSYNCHRONIZED IF-SAMPLING AND DIGITAL TIMING CORRECTION |
| Henk Wymeersch, University of Ghent, Belgium; Marc Moeneclaey, University Of Ghent, Belgium |
| SPCOM-P8.4: CONDITIONAL ENTROPY BASED COARSE TIME DELAY ESTIMATION IN THE PRESENCE OF AM/AM AND AM/PM NON-LINEARITIES |
| Josep Sala, Universitat Politècnica de Catalunya, Spain |
| SPCOM-P8.5: QUASI-ML HOP PERIOD ESTIMATION FROM INCOMPLETE DATA |
| Nikolaos Sidiropoulos, University of Minnesota, United States / Technical University of Crete, Greece; Ananthram Swami, Brian Sadler, United States Army Research Laboratory, United States |
| SPCOM-P8.6: CODE-BLIND RECEPTION OF FREQUENCY HOPPED SIGNALS OVER MULTIPATH FADING CHANNELS |
| Xiangqian Liu, University of Louisville, United States; Nicholas Sidiropoulos, University of Minnesota, United States; Ananthram Swami, United States Army Research Laboratory, United States |
| SPCOM-P8.7: JOINT SYMBOL DETECTION AND TIMING ESTIMATION USING PARTICLE FILTERING |
| Tadesse Ghirmai, Monica F. Bugallo, Stony Brook University, United States; Joaquín Miguez, Universidade da Coruña, Spain; Petar M. Djuric, Stony Brook University, United States |
| SPCOM-P8.8: BLIND CODE TIMING AND CARRIER OFFSET ESTIMATION FOR DS-CDMA SYSTEMS |
| Khaled Amleh, Hongbin Li, Stevens Institute of Technology, United States |
| SPCOM-P8.9: OPTIMIZATION OF SYMBOL TIMING RECOVERY FOR MULTI-USER DS-CDMA RECEIVERS |
| Eric Simon, Kosai Raoof, Laurent Ros, LIS Grenoble, France |
| SPCOM-P8.10: ESTIMATION OF MULTIPLE DELAYS IN A SLOWLY FADING CHANNEL |
| Jesus Selva, DLR, Germany |
| SPCOM-P8.11: EM ALGORITHM-BASED TIMING SYNCHRONIZATION IN TURBO RECEIVERS |
| Cédric Herzet, Valéry Ramon, Luc Vandendorpe, Université catholique de Louvain, Belgium; Marc Moeneclaey, Ghent University, Belgium |
| SPCOM-P8.12: IMPROVED WIRELESS LOCATION ACCURACY USING ANTENNA ARRAYS AND INTERFERENCE CANCELLATION |
| Alireza Tarighat, Nima Khajehnouri, Ali Sayed, University of California, Los Angeles, United States |
| Top |
| SPCOM-P9: Training, Estimation and Channel Characterization |
| SPCOM-P9.1: TIME-VARYING AND FREQUENCY-SELECTIVE CHANNEL ESTIMATION WITH UNEQUALLY SPACED PILOT SYMBOLS |
| Jingxian Wu, Chengshan Xiao, University of Missouri-Columbia, United States; Jan Olivier, Nokia Research Center, United States |
| SPCOM-P9.2: ON CHANNEL ESTIMATION USING SUPERIMPOSED TRAINING AND FIRST-ORDER STATISTICS |
| Jitendra Tugnait, Weilin Luo, Auburn University, United States |
| SPCOM-P9.3: BLIND RECOVERY OF MULTIPLE PACKETS IN AD HOC MOBILE NETWORKS USING POLYNOMIAL PHASE MODULATING SEQUENCES |
| M. M. Lara, A. G. Orozco-Lugo, Centro de Investigación y de Estudios Avanzados, Mexico; D. C. McLernon, University of Leeds, United Kingdom; H. J. Muro-Lemus, Centro de Investigación y de Estudios Avanzados, Mexico |
| SPCOM-P9.4: EXPLOITING 2ND-ORDER STATISTICS IN BAYESIAN SIGNAL RECONSTRUCTION PROBLEMS |
| Paulo Lopes, João Xavier, Victor Barroso, Instituto Superior Técnico - ISR, Portugal |
| SPCOM-P9.5: LOW COMPLEXITY LINEAR EQUALIZERS WITH MAXIMUM MULTIPATH DIVERSITY FOR ZERO-PADDED TRANSMISSIONS |
| Cihan Tepedelenlioglu, Arizona State University, United States |
| SPCOM-P9.6: ADAPTIVE MINIMUM BIT ERROR RATE BEAMFORMING ASSISTED RECEIVER FOR WIRELESS COMMUNICATIONS |
| Sheng Chen, Lajos Hanzo, Nurul Nadia Ahmad, University of Southampton, United Kingdom |
| SPCOM-P9.7: MULTI-DIMENSIONAL HARMONIC ESTIMATION USING K-D RARE IN APPLICATION TO MIMO CHANNEL ESTIMATION |
| Marius Pesavento, Ruhr-Universität Bochum, Germany; Christoph F. Mecklenbräuker, Forschungszentrum Telekommunikation Wien, Austria; Johann F. Böhme, Ruhr-Universität Bochum, Germany |
| SPCOM-P9.8: A VIRTUAL REPRESENTATION FOR TIME- AND FREQUENCY-SELECTIVE CORRELATED MIMO CHANNELS |
| Akbar Sayeed, University of Wisconsin, Madison, United States |
| SPCOM-P9.9: CONVOLUTIONAL SPATIAL FILTERING APPLIED TO PILOT POWER MEASUREMENTS |
| Fredrik Gunnarsson, Linköpings universitet, Sweden |
| SPCOM-P9.10: TESTS FOR ASSESSING MULTIVARIATE NORMALITY AND THE COVARIANCE STRUCTURE OF MIMO DATA |
| Thomas Svantesson, Jon Wallace, Brigham Young University, United States |
| SPCOM-P9.11: GENERALIZED HERGLOTZ WAVE FUNCTIONS FOR MODELLING WIRELESS NEARFIELD MULTIPATH SCATTERING ENVIRONMENTS |
| Rodney Kennedy, Thushara Abhayapala, Tony Pollock, Australian National University, Australia |
| SPCOM-P9.12: WAVELET-BASED SCALING BEHAVIOR OF HF CHANNEL SCATTERING FUNCTION |
| Ali Dziri, Claude Goutelard, Han Vu-Thien, CNAM, Paris, France; Ammar Bouallegue, ENIT, Tunisia |
| Top |
| SPCOM-P10: OFDM Channel Estimation/Interference Cancellation |
| SPCOM-P10.1: DELAY-SPREAD ESTIMATION USING CYCLIC-PREFIX IN WIRELESS OFDM SYSTEMS |
| Chandranath Athaudage, University of Melbourne, Australia; Dhammika Jayalath, Australian National University, Australia |
| SPCOM-P10.2: A CHANNEL ESTIMATOR FOR OFDM TRANSMITTER DIVERSITY SYSTEMS WITHOUT A CYCLIC PREFIX |
| King Lee, Motorola Labs, United States; Douglas Williams, Georgia Institute of Technology, United States |
| SPCOM-P10.3: EFFICIENT CHANNEL ESTIMATION BASED ON DISCRETE COSINE TRANSFORM |
| Yen-Hui Yeh, Sau-Gee Chen, National Chiao Tung University, Taiwan |
| SPCOM-P10.4: AN ENHANCED CHANNEL ESTIMATION ALGORITHM FOR OFDM: COMBINED EM ALGORITHM AND POLYNOMIAL FITTING |
| Xiaoqiang Ma, Hisashi Kobayashi, Stuart Schwartz, Princeton University, United States |
| SPCOM-P10.5: OFDM CHANNEL ESTIMATION IN THE PRESENCE OF ASYNCHRONOUS INTERFERENCE |
| Aleksandar Jeremic, University of Illinois, Chicago, United States; Timothy A. Thomas, Motorola Labs, United States; Arye Nehorai, University of Illinois, Chicago, United States |
| SPCOM-P10.6: ADAPTIVE WIENER FILTERS FOR TIME-VARYING CHANNEL ESTIMATION IN WIRELESS OFDM SYSTEMS |
| Dieter Schafhuber, Gerald Matz, Franz Hlawatsch, Vienna University of Technology, Austria |
| SPCOM-P10.7: LOW COMPLEXITY CROSSTALK CANCELLATION THROUGH LINE SELECTION IN UPSTREAM VDSL |
| Raphael Cendrillon, Marc Moonen, Katholieke Universiteit Leuven, Belgium; Dhananjay Gore, Arogyaswami Paulraj, Stanford University, United States |
| SPCOM-P10.8: RE-CONFIGURABLE SEMI-BLIND CANCELLATION OF ASYNCHRONOUS INTERFERENCE WITH AN ANTENNA ARRAY |
| Alexandr Kuzminskiy, Constantinos Papadias, Lucent Technologies, United Kingdom |
| SPCOM-P10.9: A NEW PILOT ASSISTED FREQUENCY SYNCHRONIZATION FOR WIRELESS OFDM SYSTEMS |
| Wen Lei, Jianhua Lu, Tsinghua University, China; Jun Gu, Beijing Institute of Technology, China |
| SPCOM-P10.10: MMSE ESTIMATION OF OFDM SYMBOL TIMING AND CARRIER FREQUENCY OFFSET IN TIME-VARYING MULTIPATH CHANNELS |
| Lv Tiejun, Xiao Huibing, Fei Peng, Tsinghua University, China |
| SPCOM-P10.11: FREQUENCY OFFSET AND I/Q IMBALANCE COMPENSATION FOR OFDM DIRECT-CONVERSION RECEIVERS |
| Guanbin Xing, Manyuan Shen, Hui Liu, University of Washington, United States |
| Top |
| SPEC-L1: Multimedia Security and Right Management Special Session |
| SPEC-L1.1: SECURITY AND RIGHTS MANAGEMENT IN DIGITAL CINEMA |
| Jeffrey Bloom, Sarnoff Corporation, United States |
| SPEC-L1.2: SECURE JPEG 2000 - JPSEC |
| Touradj Ebrahimi, Raphael Grosbois, Swiss Federal Institute of Technology (EPFL), Switzerland |
| SPEC-L1.3: WATERMARKING 2D/3D GRAPHICS FOR COPYRIGHT PROTECTION |
| Ho-Hsun Chang, Chunghwa Telecom Labs, Taiwan; Tsuhan Chen, Carnegie Mellon University, United States; Kou-Sou Kan, Chunghwa Telecom Labs, Taiwan |
| SPEC-L1.4: RESISTANCE OF ORTHOGONAL GAUSSIAN FINGERPRINTS TO COLLUSION ATTACKS |
| Z. Jane Wang, Min Wu, Hong Zhao, K. J. Ray Liu, University of Maryland, United States; Wade Trappe, Rutgers University, United States |
| SPEC-L1.5: SPEED-CHANGE RESISTANT AUDIO FINGERPRINTING USING AUTO-CORRELATION |
| Jaap Haitsma, Ton Kalker, Philips Research, Netherlands |
| SPEC-L1.6: AUTOMATED REASSEMBLY OF FRAGMENTED IMAGES |
| Anandabrata Pal, Kulesh Shanmugasundaram, Nasir Memon, Polytechnic University, United States |
| Top |
| SPEC-L2: Smart Meeting Rooms Special Session |
| SPEC-L2.1: THE NIST SMART SPACE AND MEETING ROOM PROJECTS: SIGNALS, ACQUISITON, ANNOTATON, AND METRICS |
| Vincent Stanford, John Garofolo, Olivier Galibert, Martial Michel, Christophe Laprun, NIST, United States |
| SPEC-L2.2: MEETINGS ABOUT MEETINGS: RESEARCH AT ICSI ON SPEECH IN MULTIPARTY CONVERSATIONS |
| Nelson Morgan, Don Baron, Sonali Bhagat, Hannah Carvey, Rajdip Dhillon, Jane Edwards, David Gelbart, Adam Janin, Ashley Krupski, Barbara Peskin, Thilo Pfau, Elizabeth Shriberg, Andreas Stolcke, Chuck Wooters, International Computer Science Institute, United States |
| SPEC-L2.3: AUDIO INFORMATION ACCESS FROM MEETING ROOMS |
| Steve Renals, University of Sheffield, United Kingdom; Dan Ellis, Columbia University, United States |
| SPEC-L2.4: MODELING HUMAN INTERACTION IN MEETINGS |
| Iain McCowan, Samy Bengio, Daniel Gatica-Perez, Guillaume Lathoud, Florent Monay, Darren Moore, Pierre Wellner, Hervé Bourlard, IDIAP, Switzerland |
| SPEC-L2.5: SMART: THE SMART MEETING ROOM TASK AT ISL |
| Alex Waibel, Tanja Schultz, Michael Bett, Matthias Denecke, Robert Malkin, Carnegie Mellon University, United States; Ivica Rogina, Rainer Stiefelhagen, Karlsruhe University, Germany; Jie Yang, Carnegie Mellon University, United States |
| SPEC-L2.6: THE DISTRIBUTED MEETINGS SYSTEM |
| Ross Cutler, Microsoft Research, United States |
| Top |
| SPEC-L3: Image-based Rendering Special Session |
| SPEC-L3.1: LIGHT FIELD COMPRESSION USING DISPARITY-COMPENSATED LIFTING |
| Bernd Girod, Chuo-Ling Chang, Prashant Ramanathan, Xiaoqing Zhu, Stanford University, United States |
| SPEC-L3.2: IMAGE-BASED RELIGHTING AS THE SAMPLING AND RECONSTRUCTION OF THE PLENOPTIC ILLUMINATION FUNCTION |
| Tien-Tsin Wong, Chinese University of Hong Kong, Hong Kong SAR of China |
| SPEC-L3.3: SURFACE PLENOPTIC FUNCTION: A TOOL FOR THE SAMPLING ANALYSIS OF IMAGE-BASED RENDERING |
| Cha Zhang, Tsuhan Chen, Carnegie Mellon University, United States |
| SPEC-L3.4: ACCELERATING VIDEO DECODING USING GPU |
| Guobin Shen, Microsoft Research Asia, China; Lihua Zhu, Chinese Academy of Sciences, China; Shipeng Li, Heung-Yeung Shum, Ya-Qin Zhang, Microsoft Research Asia, China |
| SPEC-L3.5: VIRTUAL FACE IMAGE GENERATION FOR ILLUMINATION AND POSE INSENSITIVE FACE RECOGNITION |
| Wen Gao, Shiguang Shan, Institute of Computing Technology, China; Xiujuan Chai, Xiaowei Fu, Harbin Institute of Technology, China |
| SPEC-L3.6: RENDERING DRIVEN DEPTH RECONSTRUCTION |
| Yin Li, Hong Kong University of Science and Technology, Hong Kong SAR of China; Xin Tong, Microsoft Research Asia, China; Chi-Keung Tang, Hong Kong University of Science and Technology, Hong Kong SAR of China; Heung-Yeung Shum, Microsoft Research Asia, China |
| Top |
| SPEC-L4: Exploiting High-Level Information for High-Performance Speaker Recognition Special Session |
| SPEC-L4.1: THE SUPERSID PROJECT: EXPLOITING HIGH-LEVEL INFORMATION FOR HIGH-ACCURACY SPEAKER RECOGNITION |
| Douglas Reynolds, MIT Lincoln Laboratory, United States; Walter Andrews, US Department of Defense, United States; Joseph Campbell, MIT LIncoln Laboratory, United States; Jiri Navratil, IBM T. J. Watson Research Center, United States; Barbara Peskin, International Computer Science Institute, United States; Andre Adami, Oregon Health & Science University, United States; Qin Jin, Carnegie Mellon University, United States; David Klusacek, Charles University, Czech Republic; Joy Abramson, York University, Canada; Radu Mihaescu, Princeton University, United States; Jack Godfrey, US Department of Defense, United States; Doug Jones, MIT Lincoln Laboratory, United States; Bing Xiang, Cornell University, United States |
| SPEC-L4.2: MODELING PROSODIC DYNAMICS FOR SPEAKER RECOGNITION |
| Andre Adami, Oregon Health & Science University, United States; Radu Mihaescu, Princeton University, United States; Douglas Reynolds, MIT Lincoln Laboratory, United States; John Godfrey, US Department of Defense, United States |
| SPEC-L4.3: USING PROSODIC AND CONVERSATIONAL FEATURES FOR HIGH-PERFORMANCE SPEAKER RECOGNITION: REPORT FROM JHU WS'02 |
| Barbara Peskin, International Computer Science Institute, United States; Jiri Navratil, IBM T. J. Watson Research Center, United States; Joy Abramson, York University, Canada; Doug Jones, MIT Lincoln Laboratory, United States; David Klusacek, Charles University, Czech Republic; Douglas Reynolds, MIT Lincoln Laboratory, United States; Bing Xiang, Cornell University, United States |
| SPEC-L4.4: PHONETIC SPEAKER RECOGNITION USING MAXIMUM-LIKELIHOOD BINARY-DECISION TREE MODELS |
| Jiri Navratil, IBM T. J. Watson Research Center, United States; Qin Jin, Carnegie Mellon University, United States; Walter Andrews, US Department of Defense, United States; Joseph Campbell, MIT Lincoln Laboratory, United States |
| SPEC-L4.5: COMBINING CROSS-STREAM AND TIME DIMENSIONS IN PHONETIC SPEAKER RECOGNITION |
| Qin Jin, ISL, Carnegie Mellon University, United States; Jiri Navratil, IBM T. J. Watson Research Center, United States; Douglas Reynolds, Joseph Campbell, MIT Lincoln Laboratory, United States; Walter Andrews, US Department of Defense, United States; Joy Abramson, York University, Canada |
| SPEC-L4.6: CONDITIONAL PRONUNCIATION MODELING IN SPEAKER DETECTION |
| David Klusacek, Charles University, Czech Republic; Jiri Navratil, IBM T. J. Watson Research Center, United States; Douglas Reynolds, Joseph Campbell, MIT Lincoln Laboratory, United States |
| Top |
| SPEC-L5: Multiuser MIMO Wireless Downlink Processing Special Session |
| SPEC-L5.1: THROUGHPUT MAXIMIZATION FOR THE MULTIUSER MIMO BROADCAST CHANNEL |
| Holger Boche, Martin Schubert, Eduard Jorswieck, Heinrich-Hertz-Institut, Berlin, Germany |
| SPEC-L5.2: MULTI-USER MIMO ANTENNA SYSTEMS USING SEMI-ORTHOGONAL SPACE DIVISION MULTIPLEXING AND SINGLE-USER QR-TRIANGULAR DETECTION |
| Zhengang Pan, Kai-Kit Wong, Tung-Sang Ng, University of Hong Kong, Hong Kong SAR of China |
| SPEC-L5.3: FAST POWER MINIMIZATION WITH QOS CONSTRAINTS IN MULTI-USER MIMO DOWNLINKS |
| Quentin Spencer, Lee Swindlehurst, Brigham Young University, United States; Martin Haardt, Ilmenau University of Technology, Germany |
| SPEC-L5.4: PRAGMATIC MULTI-USER SPATIAL MULTIPLEXING WITH ROBUSTNESS TO CHANNEL ESTIMATION ERRORS |
| Mats Bengtsson, Royal Institute of Technology (KTH), Sweden |
| SPEC-L5.5: MIMO CAPACITY WITH ANTENNA SELECTION AND INTERFERENCE |
| Rick Blum, Lehigh University, United States |
| SPEC-L5.6: MULTIUSER MIMO SYSTEMS AND INTERFERENCE AVOIDANCE |
| Dimitrie C. Popescu, University of Texas, San Antonio, United States; Christopher Rose, Rutgers University, United States |
| Top |
| SPEC-L6: Distributed Digital Signal Processing for Sensor Networking: Theory and Implementation Special Session |
| SPEC-L6.1: DATA VERSUS DECISION FUSION IN WIRELESS SENSOR NETWORKS |
| Ashwin D'Costa, Akbar Sayeed, University of Wisconsin, United States |
| SPEC-L6.2: DISTRIBUTED EM ALGORITHMS FOR DENSITY ESTIMATION IN SENSOR NETWORKS |
| Robert Nowak, Rice University, United States |
| SPEC-L6.3: ON THE IMPORTANCE OF EXACT SYNCHRONIZATION FOR DISTRIBUTED AUDIO SIGNAL PROCESSING |
| Rainer Lienhart, Igor Kozintsev, Intel Corporation, United States; Stefan Wehr, Universität Erlangen-Nürnberg, Germany; Minerva Yeung, Intel Corporation, United States |
| SPEC-L6.4: TARGET CLASSIFICATION AND LOCALIZATION IN HABITAT MONITORING |
| Hanbiao Wang, Jeremy Elson, Lewis Girod, Deborah Estrin, Kung Yao, University of California, Los Angeles, United States |
| SPEC-L6.5: HIERARCHICAL CENSORING FOR DISTRIBUTED DETECTION IN WIRELESS SENSOR NETWORKS |
| Neal Patwari, Alfred O. Hero III, University of Michigan, United States |
| SPEC-L6.6: DISTRIBUTED SIGNAL PROCESSING AND COMMUNICATIONS: ON THE INTERACTION OF SOURCES AND CHANNELS |
| Thibaut Ajdler, Razvan Cristescu, Swiss Federal Institute of Technology (EPFL), Switzerland; Pier Luigi Dragotti, Imperial College, United Kingdom; Michael Gastpar, University of California, Berkeley, United States; Irena Maravic, Martin Vetterli, Swiss Federal Institute of Technology (EPFL), Switzerland |
| SPEC-L6.7: PRISM: AN UPLINK-FRIENDLY MULTIMEDIA CODING PARADIGM |
| Rohit Puri, Kannan Ramchandran, University of California, Berkeley, United States |
| Top |
| SPEC-L7: Support Vector Machines and Kernel Techniques in Signal Processing Special Session |
| SPEC-L7.1: KERNEL METHODS AND THEIR APPLICATIONS TO SIGNAL PROCESSING |
| Olivier Bousquet, Max Planck Institute, Germany; Fernando Pérez-Cruz, Universidad Carlos III de Madrid, Spain |
| SPEC-L7.2: SUPPORT VECTOR MACHINES AND LEARNING ABOUT TIME |
| Stefan Rüping, Katharina Morik, University of Dortmund, Germany |
| SPEC-L7.3: DECOMPOSITION METHODS FOR LINEAR SUPPORT VECTOR MACHINES |
| Kai-min Chung, Wei-Chun Kao, Tony Sun, Chih-Jen Lin, National Taiwan University, Taiwan |
| SPEC-L7.4: SUPPORT VECTOR-BASED ONLINE DETECTION OF ABRUPT CHANGES |
| Frédéric Desobry, Manuel Davy, IRCCyN UMR CNRS 6597, France |
| SPEC-L7.5: KERNEL INDEPENDENT COMPONENT ANALYSIS |
| Francis Bach, Michael Jordan, University of California, Berkeley, United States |
| SPEC-L7.6: THE KERNEL MUTUAL INFORMATION |
| Arthur Gretton, MPI for Biological Cybernetics, Germany; Ralf Herbrich, Microsoft Research, United Kingdom; Alexander Smola, Australian National University, Australia |
| Top |
| SAM-L1: Multichannel Imaging |
| SAM-L1.1: IMAGE COMBINATION FOR HIGH-FIELD PHASED-ARRAY MRI |
| Rui Yan, Deniz Erdogmus, Erik G. Larsson, Jose C. Principe, Jeffrey R. Fitzsimmons, University of Florida, United States |
| SAM-L1.2: TIME-REVERSAL IMAGING FOR WIDEBAND UNDERWATER TARGET CLASSIFICATION |
| Hongwei Liu, Nilanjan Dasgupta, Lawrence Carin, Duke University, United States |
| SAM-L1.3: BLIND MULTICHANNEL IMAGE RESTORATION USING SUBSPACE BASED METHOD |
| Iwan Wirawan, Karim Abed-Meraim, Henri Maître, ENST Paris, France; Pierre Duhamel, Supélec, France |
| SAM-L1.4: A REAL-TIME CURVE EVOLUTION-BASED IMAGE FUSION ALGORITHM FOR MULTISENSORY IMAGE SEGMENTATION |
| Yuhua Ding, George Vachtsevanos, Anthony Yezzi, Wayne Daley, Bonnie Heck-Ferri, Georgia Institute of Technology, United States |
| SAM-L1.5: ROBUST UNDERWATER IMAGING WITH FAST BROADBAND INCOHERENT SYNTHETIC APERTURE SONAR |
| Kae Yeet Foo, P. R. Atkins, T. Collins, University of Birmingham, United Kingdom |
| SAM-L1.6: TIME SERIES PROCESSING OF FLIR IMAGERY FOR MTI AND CHANGE DETECTION |
| Mehrdad Soumekh, State University of New York at Buffalo, United States; Susan Young, Nasser M. Nasrabadi, United States Army Research Laboratory, United States |
| Top |
| SAM-L2: Blind Source Separation and Channel Equalization |
| SAM-L2.1: A NOVEL APPROACH FOR THE EQUALIZATION OF LOW FREQUENCY RESPONSE IN THE AUTOMOTIVE SPACE |
| Lae-Hoon Kim, Seoul National University, Republic of Korea; Jun-Seok Lim, Sejong University, Republic of Korea; Chulmin Choi, Koeng-Mo Sung, Seoul National University, Republic of Korea |
| SAM-L2.2: RELATIVE NEWTON METHOD FOR SIGNAL SEPARATION |
| Michael Zibulevsky, Technion - Israel Institute of Technology, Israel |
| SAM-L2.3: A NEW ICA ALGORITHM FOR BLIND SOURCE SEPARATION |
| Chin-Jen Ku, Terrence L. Fine, Cornell University, United States |
| SAM-L2.4: ROBUST EQUALIZATION BASED ON A NETWORK OF KALMAN FILTERS IN IMPULSIVE NOISE ENVIRONMENTS |
| Bessem Sayadi, Sylvie Marcos, LSS/SUPELEC/CNRS, France |
| SAM-L2.5: FOURTH ORDER BLIND IDENTIFICATION OF UNDERDETERMINED MIXTURES OF SOURCES (FOBIUM) |
| Anne Ferreol, Laurent Albera, Pascal Chevalier, Thales Communications, France |
| SAM-L2.6: A SUBSPACE APPROACH TO SINGLE CHANNEL SIGNAL SEPARATION USING MAXIMUM LIKELIHOOD WEIGHTING FILTERS |
| Gil-Jin Jang, KAIST, Republic of Korea; Te-Won Lee, University of California, San Diego, United States; Yung-Hwan Oh, KAIST, Republic of Korea |
| Top |
| SAM-L3: MIMO Systems |
| SAM-L3.1: EFFICIENT STATISTICAL PRUNING FOR MAXIMUM LIKELIHOOD DECODING |
| Radhika Gowaikar, Babak Hassibi, California Institute of Technology, United States |
| SAM-L3.2: POWER ALLOCATION AND BIT LOADING FOR SPATIAL MULTIPLEXING IN MIMO SYSTEMS |
| Xi Zhang, Björn Ottersten, Royal Institute of Technology (KTH), Sweden |
| SAM-L3.3: FAST ANTENNA SUBSET SELECTION IN WIRELESS MIMO SYSTEMS |
| Mohammad Gharavi-Alkhansari, Mercator University, Germany; Alex Gershman, McMaster University, Canada |
| SAM-L3.4: CUT-OFF RATE BASED TRANSMIT OPTIMIZATION FOR SPATIAL MULTIPLEXING ON GENERAL MIMO CHANNELS |
| Rohit Nabar, Helmut Boelcskei, ETH Zurich, Switzerland; Arogyaswami Paulraj, Stanford University, United States |
| SAM-L3.5: OPPORTUNISTIC TRANSMISSION SCHEDULING FOR MULTIUSER MIMO SYSTEMS |
| Liang Dong, Teng Li, Yih-Fang Huang, University of Notre Dame, United States |
| SAM-L3.6: LOWER BOUNDS ON THE CHANNEL ESTIMATION ERROR FOR FAST-VARYING FREQUENCY-SELECTIVE RAYLEIGH MIMO CHANNELS |
| Osvaldo Simeone, Umberto Spagnolini, Politecnico di Milano, Italy |
| Top |
| SAM-L4: Applications of Multichannel Signal Processing |
| SAM-L4.1: NEW METHODS FOR HANDLING THE RANGE-DEPENDENCE OF THE CLUTTER SPECTRUM IN NON-SIDELOOKING MONOSTATIC STAP RADARS |
| Fabian Lapierre, Marc Van Droogenbroeck, Jacques Verly, University of Liège, Belgium |
| SAM-L4.2: IMPROVED INTERFERENCE CANCELLATION IN SYNTHESIS ARRAY RADIO ASTRONOMY USING AUXILIARY ANTENNAS |
| Brian Jeffs, Karl Warnick, Lisha Li, Brigham Young University, United States |
| SAM-L4.3: DOPPLER COMPENSATION IN UNDERWATER CHANNELS USING TIME-REVERSAL ARRAYS |
| Joao Gomes, Victor Barroso, ISR - Instituto Superior Tecnico, Portugal |
| SAM-L4.4: DUAL POLARIZATION GAIN ESTIMATION FOR RADIO TELESCOPE ARRAYS |
| Albert-Jan Boonstra, ASTRON, Netherlands; Alle-Jan van der Veen, Delft University of Technology, Netherlands |
| SAM-L4.5: A NEW APPROACH FOR NEAR-FIELD WIDEBAND SYNTHETIC APERTURE BEAMFORMING |
| Fauzia Ahmad, Villanova University, United States; Gordon Frazer, DSTO, Australia; Saleem Kassam, University of Pennsylvania, United States; Moeness Amin, Villanova University, United States |
| SAM-L4.6: ATRIAL FIBRILLATION ANALYSIS BASED ON ICA INCLUDING STATISTICAL AND TEMPORAL SOURCE INFORMATION |
| Francisco Castells, Jorge Igual, Jose Joaquin Rieta, Politechnic University, Valencia, Spain; Cesar Sanchez, Universidad de Castilla la Mancha, Spain; Jose Millet, Politechnic University, Valencia, Spain |
| Top |
| SAM-P1: Space-time Processing for Communications |
| SAM-P1.1: EXPLOITING SYMMETRY IN CHANNEL SHORTENING EQUALIZERS |
| Richard Martin, C. Richard Johnson, Jr., Cornell University, United States; Ming Ding, Brian Evans, University of Texas, Austin, United States |
| SAM-P1.2: A FAST RECURSIVE ALGORITHM FOR OPTIMUM SEQUENTIAL SIGNAL DETECTION IN A BLAST SYSTEM |
| Jacob Benesty, Yiteng Huang, Jingdong Chen, Bell Labs, Lucent Technologies, United States |
| SAM-P1.3: ROBUST POWER ADJUSTMENT FOR TRANSMIT BEAMFORMING IN CELLULAR COMMUNICATION SYSTEMS |
| Mehrzad Biguesh, Mercator University, Germany; Shahram Shahbazpanahi, Alex Gershman, McMaster University, Canada |
| SAM-P1.4: ON THE OPTIMAL TRANSMISSION STRATEGY FOR THE MIMO MAC WITH MMSE RECEIVER |
| Eduard Jorswieck, Heinrich-Hertz-Institut, Berlin, Germany; Holger Boche, Technical University of Berlin, Germany |
| SAM-P1.5: BLIND IDENTIFICATION OF FIR MIMO CHANNELS BY GROUP DECORRELATION |
| Senjian An, University of Melbourne, Australia; Yingbo Hua, University of California, Riverside, United States; Jonathan H. Manton, University of Melbourne, Australia |
| SAM-P1.6: LINEAR PRECODING OVER TIME-VARYING CHANNELS IN TDD SYSTEMS |
| Frank Dietrich, Raphael Hunger, Michael Joham, Wolfgang Utschick, Munich University of Technology, Germany |
| SAM-P1.7: DECODING OF FULL RATE SPACE-TIME BLOCK CODE WITHOUT CHANNEL STATE INFORMATION IN FREQUENCY-SELECTIVE CHANNELS |
| Zheng Zhao, Qinye Yin, Hong Zhang, Ke Deng, Xi'an Jiaotong University, China |
| SAM-P1.8: CONSTRAINED LS ALGORITHM FOR CHANNEL VECTOR ESTIMATION IN 2-D RAKE RECEIVER |
| Jianming Wang, Southeast university, China; Chunming Zhao, Southeast University, China |
| SAM-P1.9: DECODING ALGORITHMS FOR RECONFIGURABLE SPACE-TIME TURBO CODES |
| Meritxell Lamarca, Jose Antonio Lopez-Salcedo, Polytechnic University of Catalonia, Spain |
| SAM-P1.10: A NEW CROSS-CORRELATION AND CONSTANT MODULUS TYPE ALGORITHM FOR PAM-PSK SIGNALS |
| Jonathon Chambers, Yuhui Luo, King's College London, United Kingdom |
| SAM-P1.11: RECEIVED SIGNAL STRENGTH BASED MOBILE POSITIONING VIA CONSTRAINED WEIGHTED LEAST SQUARES |
| Ka Wai Cheung, Hing Cheung So, City University of Hong Kong, Hong Kong SAR of China; Wing-Kin Ma, Yiu-Tong Chan, Chinese University of Hong Kong, Hong Kong SAR of China |
| Top |
| SAM-P2: Source Localization and Tracking |
| SAM-P2.1: COHERENT SOURCE LOCALIZATION USING VECTOR SENSOR ARRAYS |
| Dayan Rahamim, Reuven Shavit, Joseph Tabrikian, Ben-Gurion University, Israel |
| SAM-P2.2: MULTI-STEP INFORMATION-DIRECTED SENSOR QUERYING IN DISTRIBUTED SENSOR NETWORKS |
| Juan Liu, Palo Alto Research Center, United States; Dragan Petrovic, University of California, Berkeley, United States; Feng Zhao, Palo Alto Research Center, United States |
| SAM-P2.3: BINAURAL TRACKING OF MULTIPLE MOVING SOURCES |
| Nicoleta Roman, DeLiang Wang, Ohio State University, United States |
| SAM-P2.4: TDOA-SDOA ESTIMATION WITH MOVING SOURCE AND RECEIVERS |
| Yiu-Tong Chan, Chinese University of Hong Kong, Hong Kong SAR of China; Dominic K. C. Ho, University of Missouri-Columbia, United States |
| SAM-P2.5: GEOMETRIC MICROPHONE ARRAY CALIBRATION BY MULTIDIMENSIONAL SCALING |
| Stan Birchfield, Quindi Corporation, United States |
| SAM-P2.6: TEMPORAL SMOOTHING FOR SUBSPACE TRACKING OF MULTIPATH SIGNALS IN FADING CHANNEL |
| Zhenghui Gu, Institute for Infocomm Research, Singapore; Erry Gunawan, Nanyang Technological University, Singapore |
| SAM-P2.7: MIXED-STATE PARTICLE FILTERS FOR MULTIASPECT TARGET TRACKING IN IMAGE SEQUENCES |
| Marcelo Bruno, Instituto Tecnologico de Aeronautica, Brazil |
| SAM-P2.8: AN UNBIASED ESTIMATOR FOR BEARINGS-ONLY TRACKING AND DOPPLER-BEARING TRACKING |
| Dominic K. C. Ho, University of Missouri-Columbia, United States; Yiu-Tong Chan, Chinese University of Hong Kong, Hong Kong SAR of China |
| SAM-P2.9: SENSING FIELD: COVERAGE CHARACTERIZATION IN DISTRIBUTED SENSOR NETWORKS |
| Juan Liu, Palo Alto Research Center, United States; Xenofon Koutsoukos, Vanderbilt University, United States; James Reich, Feng Zhao, Palo Alto Research Center, United States |
| SAM-P2.10: EXPERIMENTAL COMPARISON OF PARTICLE FILTERING ALGORITHMS FOR ACOUSTIC SOURCE LOCALIZATION IN A REVERBERANT ROOM |
| Eric Lehmann, Australian National University, Australia; Darren Ward, Imperial College, United Kingdom; Robert Williamson, Australian National University, Australia |
| SAM-P2.11: IMPROVING THE SPURIOUS PERFORMANCE OF A DIGITISED ARRAY RECEIVER |
| Feng Rice, Lang White, Adelaide University, Australia; Angus Massie, Defence Science and Technology Organisation, Australia |
| Top |
| SAM-P3: Direction-of-arrival Estimation |
| SAM-P3.1: ASYMPTOTICALLY OPTIMAL ESTIMATION OF DOA FOR NON-CIRCULAR SOURCES FROM SECOND ORDER MOMENTS |
| Jean-Pierre Delmas, INT, France |
| SAM-P3.2: WIDEBAND ARRAY SIGNAL PROCESSING USING MCMC METHODS |
| William Ng, James P. Reilly, Thia Kirubarajan, McMaster University, Canada |
| SAM-P3.3: CONSTRAINED TST MUSIC FOR JOINT SPATIAL-TEMPORAL CHANNEL PARAMETER ESTIMATION |
| Jen-Der Lin, Wen-Hsien Fang, National Taiwan University of Science and Technology, Taiwan; Jiunn-Tsair Chen, National Tsing-Hua University, Taiwan |
| SAM-P3.4: TOWARD INTELLIGENT SENSORS - RELIABILITY FOR TIME DELAY BASED DIRECTION OF ARRIVAL ESTIMATES |
| Tuomo Pirinen, Pasi Pertilä, Ari Visa, Tampere University of Technology, Finland |
| SAM-P3.5: SELECTING THE BEST AMONG SEVERAL ESTIMATES IN DOA ESTIMATION. |
| Jean-Jacques Fuchs, IRISA/University de Rennes 1, France |
| SAM-P3.6: A NEW APPROACH TO ARRAY INTERPOLATION BY GENERATION OF ARTIFICIAL SHIFT INVARIANCES: INTERPOLATED ESPRIT |
| Markus Buehren, Universität Stuttgart, Germany; Marius Pesavento, Johann F. Böhme, Ruhr-Universität Bochum, Germany |
| SAM-P3.7: ARRAY SIGNAL PROCESSING IN THE KNOWN WAVEFORM AND STEERING VECTOR CASE |
| Yi Jiang, Jian Li, University of Florida, United States; Petre Stoica, Uppsala University, Sweden |
| SAM-P3.8: ANTENNA ARRAYS FOR ENHANCED ESTIMATION OF AZIMUTH AND ELEVATION |
| Houcem Gazzah, Sylvie Marcos, Ecole Superieure d'Electricite, France |
| SAM-P3.9: A SINGLE CHANNEL APPROACH TO HIGH RESOLUTION DIRECTION FINDING AND BEAMFORMING |
| Chong Meng Samson See, DSO National Laboratories, Singapore |
| SAM-P3.10: DESIGN OF BROAD-BAND CIRCULAR RING MICROPHONE ARRAY FOR SPEECH ACQUISITION IN 3-D |
| Yunhong Li, K. C. Ho, University of Missouri-Columbia, United States; Chiman Kwan, Intelligent Automation, Inc., United States |
| SAM-P3.11: NEW SIGNAL SUBSPACE DIRECTION-OF-ARRIVAL ESTIMATOR FOR WIDEBAND SOURCES |
| Yeo-Sun Yoon, Georgia Institute of Technology, United States; Lance Kaplan, Clark Atlanta University, United States; James McClellan, Georgia Institute of Technology, United States |
| SAM-P3.12: A NEW GIBBS SAMPLING DOA ESTIMATOR BASED ON BAYESIAN METHOD |
| Jianguo Huang, Yi Sun, Kewei Liu, Hongfeng Qin, Northwestern Polytechnical University, China |
| Top |
| SAM-P4: Signal Detection and Estimation |
| SAM-P4.1: TWO-CHANNEL SIGNAL DETECTION AND SPEECH ENHANCEMENT BASED ON THE TRANSIENT BEAM-TO-REFERENCE RATIO |
| Israel Cohen, Technion - Israel Institute of Technology, Israel; Baruch Berdugo, Lamar Signal Processing Ltd., Israel |
| SAM-P4.2: TIME-DELAY ESTIMATION IN MIXTURES |
| Arie Yeredor, Tel-Aviv University, Israel |
| SAM-P4.3: A CHANGE DETECTION STATISTIC FOR REPEAT PASS INTERFEROMETRIC SAR |
| Mark Preiss, Doug Gray, University of Adelaide, Australia; Nick Stacy, Defence Science and Technology Organisation, Australia |
| SAM-P4.4: PARAMETER ESTIMATION OF SPIRAL WAVES FROM ATRIAL ELECTROGRAMS |
| Yuping Xiao, Yibin Zheng, Donald Jordan, Joseph Akar, David Haines, University of Virginia, United States |
| SAM-P4.5: A UNIFORM OVERSAMPLED FILTER BANK APPROACH TO INDEPENDENT COMPONENT ANALYSIS |
| Hyung-Min Park, Korea Advanced Institute of Science and Technology, Republic of Korea; Sang-Hoon Oh, Mokwon University, Republic of Korea; Soo-Young Lee, Korea Advanced Institute of Science and Technology, Republic of Korea |
| SAM-P4.6: A NOVEL ESTIMATOR AND PERFORMANCE BOUND FOR TIME PROPAGATION AND DOPPLER BASED RADIO-LOCATION |
| Andreu Urruela, Jaume Riba, Universitat Politècnica de Catalunya, Spain |
| SAM-P4.7: SOURCE DETECTION IN CORRELATED MULTICHANNEL SIGNAL AND NOISE FIELDS |
| Karim Oweiss, Michigan State University, United States |
| SAM-P4.8: SLIDING WINDOW ORTHONORMAL PAST ALGORITHM |
| Roland Badeau, Karim Abed-Meraim, Gaël Richard, Bertrand David, Telecom-Paris, France |
| SAM-P4.9: MAXIMUM LIKELIHOOD JOINT ANGLE AND DELAY ESTIMATION IN UNKNOWN NOISE FIELDS |
| Adel Belouchrani, Ecole Nationale Polytechnique, Algeria; Said Aouada, Curtin University of Technology, Australia |
| SAM-P4.10: MANAGING DATA INCEST IN A DISTRIBUTED SENSOR NETWORK |
| Samuel McLaughlin, University of Melbourne, Australia; Vikram Krishnamurthy, University of British Columbia, Canada; Subhash Challa, University of Melbourne, Australia |
| SAM-P4.11: THE VTP TEST FOR TRANSIENTS OF EQUAL DETECTABILITY |
| Peter Willett, University of Connecticut, United States; Z. Jane Wang, University of Maryland, United States |
| SAM-P4.12: ON THE ESTIMATION OF INTERFEROMETRIC PHASES FOR MULTIBASELINE SAR INTERFEROMETRY USING A RELAXATION-BASED TECHNIQUE |
| Andreas Jakobsson, King's College London, United Kingdom; Fulvio Gini, Fabrizio Lombardini, University of Pisa, Italy |
| Top |
| SAM-P5: Blind Source Separation |
| SAM-P5.1: TIME-FREQUENCY DOMAIN BLIND SOURCE SEPARATION --THE INDEPENDENCE PROBLEM AND PROPOSED SOLUTION |
| Xuebin Hu, Hidefumi Kobatake, Tokyo University of Agriculture & Technology, Japan |
| SAM-P5.2: SPSA FOR NOISY NON-STATIONARY BLIND SOURCE SEPARATION |
| Tariq Durrani, Universiy of Strathclyde, United Kingdom; Gordon Morison, University of Strathclyde, United Kingdom |
| SAM-P5.3: BLIND SOURCES SEPARATION BASED ON QUADRATIC TIME-FREQUENCY REPRESENTATIONS: A METHOD WITHOUT PRE-WHITENING |
| Laurent Giulieri, SIS-SD ISITV, France; Nadège Thirion-Moreau, SIS-SD, ISITV, France; Pierre-Yves Arques, SIS-SD ISITV, France |
| SAM-P5.4: SCALABLE NON-SQUARE BLIND SOURCE SEPARATION IN THE PRESENCE OF NOISE |
| Radu Balan, Justinian Rosca, Scott Rickard, Siemens Corporate Research, United States |
| SAM-P5.5: NEW EM ALGORITHMS FOR SOURCE SEPARATION AND DECONVOLUTION WITH A MICROPHONE ARRAY |
| Hagai Attias, Microsoft Research, United States |
| SAM-P5.6: NORMALISED NATURAL GRADIENT ALGORITHM FOR THE SEPARATION OF CYCLOSTATIONARY SOURCES |
| Maria Jafari, Jonathon Chambers, King's College London, United Kingdom |
| SAM-P5.7: BLIND SEPARATION OF CONVOLUTIVE MIXTURES BASED ON SECOND ORDER AND THIRD ORDER STATISTICS |
| Zhongfu Ye, University of Science and Technology of China, China; Chunqi Chang, University of Hong Kong, Hong Kong SAR of China; Chen Wang, Jian Zhao, University of Science and Technology of China, China; Francis H. Y. Chan, University of Hong Kong, Hong Kong SAR of China |
| SAM-P5.8: BLIND SEPARATION USING A CLASS OF NEW INDEPENDENCE MEASURES |
| Yang Chen, Zhenya He, Southeast University, China |
| SAM-P5.9: ICA WITH MULTIPLE QUADRATIC CONSTRAINTS |
| Xuejun Liao, Lawrence Carin, Duke University, United States |
| SAM-P5.10: CONDITIONS ON SOURCES AND MIXING MATRIX FOR SOLVING THE PERMUTATION INDETERMINACY IN 2X2 INSTANTANEOUS BLIND SIGNAL SEPARATION |
| Jakob van de Laar, Piet Sommen, Technische Universiteit Eindhoven, Netherlands |
| SAM-P5.11: BLIND SOURCE SEPARATION BASED ON BINAURAL ICA |
| Tomoya Takatani, Tsuyoki Nishikawa, Hiroshi Saruwatari, Nara Institute of Science and Technology, Japan |
| Top |
| SAM-P6: Adaptive Beamforming and Space-time Processing |
| SAM-P6.1: MAINLOBE AND PEAK SIDELOBE CONTROL IN ADAPTIVE ARRAYS |
| Renbiao Wu, Civil Aviation University of China, China; Zhisong Wang, Jian Li, University of Florida, United States |
| SAM-P6.2: A GEOMETRICAL APPROACH TO ROBUST MINIMUM VARIANCE BEAMFORMING |
| Ngai Wong, Tung-Sang Ng, University of Hong Kong, Hong Kong SAR of China; Venkataramanan Balakrishnan, Purdue University, United States |
| SAM-P6.3: ROBUST ADAPTIVE BEAMFORMING USING WORST-CASE SINR OPTIMIZATION: A NEW DIAGONAL LOADING-TYPE SOLUTION FOR GENERAL-RANK SIGNAL MODELS |
| Shahram Shahbazpanahi, Alex Gershman, Zhi-Quan Luo, Kon Max Wong, McMaster University, Canada |
| SAM-P6.4: ON ROBUST CAPON BEAMFORMING AND DIAGONAL LOADING |
| Jian Li, University of Florida, United States; Petre Stoica, Uppsala University, Sweden; Zhisong Wang, University of Florida, United States |
| SAM-P6.5: EFFICIENT METHOD TO DETERMINE DIAGONAL LOADING VALUE |
| Ning Ma, Joo Thiam Goh, DSO National Laboratories, Singapore |
| SAM-P6.6: ADAPTIVE BEAMFORMING WITH JOINT ROBUSTNESS AGAINST SIGNAL STEERING VECTOR ERRORS AND INTERFERENCE NONSTATIONARITY |
| Sergiy Vorobyov, Alex Gershman, Zhi-Quan Luo, McMaster University, Canada; Ning Ma, DSO National Laboratories, Singapore |
| SAM-P6.7: ADAPTIVE BEAMFORMING FOR CYCLOSTATIONARY SIGNALS |
| Pascal Chargé, Yide Wang, Joseph Saillard, IRCCyN, France |
| SAM-P6.8: SPACE-TIME INTERPOLATION FOR ADAPTIVE ARRAYS WITH LIMITED TRAINING DATA |
| Vijay Varadarajan, Jeffrey Krolik, Duke University, United States |
| SAM-P6.9: BEAMFORMING-BASED CONVOLUTIVE SOURCE SEPARATION |
| Wolf Baumann, Dorothea Kolossa, Reinhold Orglmeister, Berlin University of Technology, Germany |
| SAM-P6.10: CONSTANT BEAMWIDTH BEAMFORMER FOR DIFFERENCE FREQUENCY IN PARAMETRIC ARRAY |
| Khim Sia Tan, Woon Seng Gan, Jun Yang, Meng Hwa Er, Nanyang Technological University, Singapore |
| SAM-P6.11: ACOUSTIC BEAMFORMING EXPLOITING DIRECTIONALITY OF HUMAN SPEECH SOURCES |
| Terence Betlehem, Australian National University, Australia; Robert Williamson, National ICT Australia, Australia |
| SAM-P6.12: ON THE USE OF BEAMFORMING FOR ESTIMATION OF SPATIALLY DISTRIBUTED SIGNALS |
| Mikael Tapio, Chalmers University of Technology, Sweden |
| Top |
| AUDIO-L1: Echo Cancellation |
| AUDIO-L1.1: A SHORT-SORT M-MAX NLMS PARTIAL-UPDATE ADAPTIVE FILTER WITH APPLICATIONS TO ECHO CANCELLATION |
| Patrick Naylor, Warren Sherliker, Imperial College London, United Kingdom |
| AUDIO-L1.2: A CENTRALIZED ACOUSTIC ECHO CANCELLER EXPLOITING MASKING PROPERTIES OF THE HUMAN EAR |
| Xiaojian Lu, Benoit Champagne, McGill University, Canada |
| AUDIO-L1.3: A ROBUST APPROACH TO THE PERMUTATION PROBLEM OF FREQUENCY-DOMAIN BLIND SOURCE SEPARATION |
| Hiroshi Sawada, Ryo Mukai, Shoko Araki, Shoji Makino, NTT Corporation, Japan |
| AUDIO-L1.4: AN EXTENDED MULTIDELAY FILTER: FAST LOW-DELAY ALGORITHMS FOR VERY HIGH-ORDER ADAPTIVE SYSTEMS |
| Herbert Buchner, Walter Kellermann, Universität Erlangen-Nürnberg, Germany; Jacob Benesty, Bell Labs, Lucent Technologies, United States |
| AUDIO-L1.5: ACOUSTIC ECHO CANCELLATION USING NONLINEAR CASCADE FILTERS |
| Jean-Pierre Costa, Axel Lagrange, Aurelie Arliaud, University of Avignon, France |
| AUDIO-L1.6: A SOFT-PARTITIONED FREQUENCY-DOMAIN ADAPTIVE FILTER FOR ACOUSTIC ECHO CANCELLATION |
| Gerald Enzner, Peter Vary, Aachen University (RWTH), Germany |
| Top |
| AUDIO-L2: Broadband and Perceptual Coding I |
| AUDIO-L2.1: A NON-UNIFORM MODULATION TRANSFORM FOR AUDIO CODING WITH INCREASED TIME RESOLUTION |
| Jeffrey Thompson, Les Atlas, University of Washington, United States |
| AUDIO-L2.2: A PERCEPTUAL SUBSPACE METHOD FOR SINUSOIDAL SPEECH AND AUDIO MODELING |
| Jesper Jensen, Richard Heusdens, Delft University of Technology, Netherlands; Soren Holdt Jensen, Aalborg University, Denmark |
| AUDIO-L2.3: EFFICIENT BIT ASSIGNMENT STRATEGY FOR PERCEPTUAL AUDIO CODING |
| Cheng-Han Yang, Hsueh-Ming Hang, National Chiao Tung University, Taiwan |
| AUDIO-L2.4: HIERARCHICAL LOSSLESS AUDIO CODING IN TERMS OF SAMPLING RATE AND AMPLITUDE RESOLUTION |
| Takehiro Moriya, Akio Jin, Takeshi Mori, Kazunaga Ikeda, Takao Kaneko, NTT Cyber Space Labs., Japan |
| AUDIO-L2.5: A PROGRESSIVE TO LOSSLESS EMBEDDED AUDIO CODER (PLEAC) WITH REVERSIBLE MODULATED LAPPED TRANSFORM |
| Jin Li, Microsoft Research, United States |
| AUDIO-L2.6: A BITSTREAM SCALABLE AUDIO CODER USING A HYBRID WLPC-WAVELET REPRESENTATION |
| Daryl Ning, Mohamed Deriche, Queensland University of Technology, Australia |
| Top |
| AUDIO-L3: Applications to Music |
| AUDIO-L3.1: MUSICAL INSTRUMENT IDENTIFICATION BASED ON F0-DEPENDENT MULTIVARIATE NORMAL DISTRIBUTION |
| Tetsuro Kitahara, Kyoto University, Japan; Masataka Goto, National Institute of Advanced Insdustrial Science and Technology, Japan; Hiroshi G. Okuno, Kyoto University, Japan |
| AUDIO-L3.2: A PERCEPTUALLY BALANCED LOSS FUNCTION FOR SHORT-TIME SPECTRAL AMPLITUDE ESTIMATION |
| Patrick J. Wolfe, Simon J. Godsill, University of Cambridge, United Kingdom |
| AUDIO-L3.3: MUSICAL GENRE CLASSIFICATION USING SUPPORT VECTOR MACHINES |
| Changsheng Xu, Namunu Maddage, Xi Shao, Fang Cao, Qi Tian, Laboratories for Information Technology, Singapore |
| AUDIO-L3.4: COMPILATION OF UNIFIED PHYSICAL MODELS FOR EFFICIENT SOUND SYNTHESIS |
| Matti Karjalainen, Cumhur Erkut, Lauri Savioja, Helsinki University of Technology, Finland |
| AUDIO-L3.5: A CHORUS-SECTION DETECTING METHOD FOR MUSICAL AUDIO SIGNALS |
| Masataka Goto, National Institute of Advanced Insdustrial Science and Technology, Japan |
| AUDIO-L3.6: PHASE-BASED NOTE ONSET DETECTION FOR MUSIC SIGNALS |
| Juan Bello, Mark Sandler, Queen Mary, University of London, United Kingdom |
| Top |
| AUDIO-L4: Broadband and Perceptual Coding II |
| AUDIO-L4.1: FINE GRAIN SCALABLE PERCEPTUAL AND LOSSLESS AUDIO CODING BASED ON INTMDCT |
| Ralf Geiger, Fraunhofer AEMT, Germany; Jürgen Herre, Fraunhofer IIS-A, Germany; Gerald Schuller, Thomas Sporer, Fraunhofer AEMT, Germany |
| AUDIO-L4.2: FLEXIBLE FREQUENCY DECOMPOSITIONS FOR COSINE-MODULATED FILTER BANKS |
| Omar Niamut, Richard Heusdens, Delft University of Technology, Netherlands |
| AUDIO-L4.3: ON PSYCHOACOUSTIC NOISE SHAPING FOR AUDIO REQUANTIZATION |
| Dreten De Koning, Werner Verhelst, Vrije Universiteit Brussel, Belgium |
| AUDIO-L4.4: TOWARDS A NEW PERCEPTUAL CODING PARADIGM FOR AUDIO SIGNALS |
| Ricky Der, Peter Kabal, McGill University, Canada; Wai-Yip Chan, Queen's University, Canada |
| AUDIO-L4.5: IMPROVED LOW BIT-RATE AUDIO COMPRESSION USING REDUCED RANK ICA INSTEAD OF PSYCHOACOUSTIC MODELING |
| Adiel Ben-Shalom, Michael Werman, Hebrew University of Jerusalem, Israel; Shlomo Dubnov, Ben-Gurion University, Israel |
| AUDIO-L4.6: EFFICIENT SCALABLE CODING OF STEREOPHONIC AUDIO BY CONDITIONAL QUANTIZATION AND ESTIMATION-THEORETIC PREDICTION |
| Ashish Aggarwal, Sang-Uk Ryu, Kenneth Rose, University of California, Santa Barbara, United States |
| Top |
| AUDIO-P1: Loudspeaker and Microphone Array Signal Processing |
| AUDIO-P1.1: ROBUST REAL-TIME BLIND SOURCE SEPARATION FOR MOVING SPEAKERS IN A ROOM |
| Ryo Mukai, Hiroshi Sawada, Shoko Araki, Shoji Makino, NTT Corporation, Japan |
| AUDIO-P1.2: DESIGN OF BROADBAND SPEECH BEAMFORMERS ROBUST AGAINST ERRORS IN THE MICROPHONE ARRAY CHARACTERISTICS |
| Simon Doclo, Marc Moonen, Katholieke Universiteit Leuven, Belgium |
| AUDIO-P1.3: A REAL-TIME AUDITORY-BASED MICROPHONE ARRAY ASSESSED WITH E-RASTI EVALUATION PROPOSAL |
| José-Luis Sánchez-Bote, Joaquín González-Rodríguez, Javier Ortega-García, Universidad Politécnica de Madrid, Spain |
| AUDIO-P1.4: ROBUST TIME DELAY ESTIMATION EXPLOITING SPATIAL CORRELATION |
| Jingdong Chen, Jacob Benesty, Yiteng (Arden) Huang, Bell Labs, Lucent Technologies, United States |
| AUDIO-P1.5: ESTIMATION OF THE NUMBER OF SOUND SOURCES USING SUPPORT VECTOR MACHINES AND ITS APPLICATION TO SOUND SOURCE SEPARATION |
| Kiyoshi Yamamoto, University of Tsukuba, Japan; Futoshi Asano, AIST, Japan; Willem van Rooijen, Universiteit Leiden, Netherlands; Eric Ling, AIST, Japan; Takeshi Yamada, Nobuhiko Kitawaki, University of Tsukuba, Japan |
| AUDIO-P1.6: SPEECH ENHANCEMENT USING MULTIPLE SOFT CONSTRAINED BEAMFORMERS AND NON-COHERENT TECHNIQUE |
| Siow Yong Low, University of Western Australia , Australia; Nedelko Grbic, Sven Nordholm, University of Western Australia, Australia |
| AUDIO-P1.7: ROBUST INTERFERENCE SUPPRESSION AND BLIND SPEECH BEAMFORMING IN ROOM REVERBERANT ENVIRONMENTS |
| Wing-Kin Ma, Pak Chung Ching, Chinese University of Hong Kong, Hong Kong SAR of China |
| AUDIO-P1.8: MICROPHONE ARRAY SPEECH RECOGNITION: EXPERIMENTS ON OVERLAPPING SPEECH IN MEETINGS |
| Darren Moore, Iain McCowan, IDIAP, Switzerland |
| AUDIO-P1.9: THE IMPACT OF SPEECH DETECTION ERRORS ON THE NOISE REDUCTION PERFORMANCE OF MULTI-CHANNEL WIENER FILTERING |
| Ann Spriet, Marc Moonen, Katholieke Universiteit Leuven, ESAT-SCD/SISTA, Belgium; Jan Wouters, Katholieke Universiteit Leuven, Belgium |
| AUDIO-P1.10: INTERFACE FOR BARGE-IN FREE SPOKEN DIALOGUE SYSTEM BASED ON SOUND FIELD CONTROL AND MICROPHONE ARRAY |
| Yoichi Hinamoto, Kouichi Mino, Hiroshi Saruwatari, Kiyohiro Shikano, Nara Institute of Science and Technology, Japan |
| AUDIO-P1.11: SUBBAND BASED BLIND SOURCE SEPARATION FOR CONVOLUTIVE MIXTURES OF SPEECH |
| Shoko Araki, Shoji Makino, NTT Corporation, Japan; Robert Aichner, Universität Erlangen-Nürnberg, Germany; Tsuyoki Nishikawa, Hiroshi Saruwatari, Nara Institute of Science and Technology, Japan |
| AUDIO-P1.12: FAST CONVOLUTIVE BLIND SPEECH SEPARATION VIA SUBBAND ADAPTATION |
| Francois Duplessis-Beaulieu, Benoit Champagne, McGill University, Canada |
| Top |
| AUDIO-P2: Applications to Music, Auditory Modeling, and Hearing Aids |
| AUDIO-P2.1: PITCH AND TIMBRE MANIPULATIONS USING CORTICAL REPRESENTATION OF SOUND |
| Dmitry N. Zotkin, Shihab A. Shamma, Powen Ru, Ramani Duraiswami, Larry S. Davis, University of Maryland, College Park, United States |
| AUDIO-P2.2: A BAYES-RULE BASED HIERARCHICAL SYSTEM FOR BINAURAL SOUND SOURCE LOCALIZATION |
| Danfeng Li, Stephen Levinson, University of Illinois, Urbana-Champaign, United States |
| AUDIO-P2.3: SPEECH SEGREGATION USING EVENT SYNCHRONOUS AUDITORY VOCODER |
| Toshio Irino, Wakayama University, Japan; Roy Patterson, University of Cambridge, United Kingdom; Hideki Kawahara, Wakayama University, Japan |
| AUDIO-P2.4: AUDIO-BASED CONTEXT AWARENESS - ACOUSTIC MODELING AND PERCEPTUAL EVALUATION |
| Antti Eronen, Juha Tuomi, Anssi Klapuri, Tampere University of Technology, Finland; Seppo Fagerlund, Timo Sorsa, Gaëtan Lorho, Jyri Huopaniemi, Nokia Research Center, Finland |
| AUDIO-P2.5: A LINEAR HIDDEN MARKOV MODEL FOR MUSIC INFORMATION RETRIEVAL BASED ON HUMMING |
| Baolong Liu, Yadong Wu, Yang Li, Shanghai Jiaotong University, China |
| AUDIO-P2.6: INSTANTANEOUS FREQUENCY AND AMPLITUDE OF VIBRATO IN SINGING VOICE |
| Ixone Arroabarren, Miroslav Zivanovic, Universidad Publica de Navarra, Spain; Xavier Rodet, IRCAM, France; Alfonso Carlosena, Universidad Publica de Navarra, Spain |
| AUDIO-P2.7: MULTIDIMENSIONAL HUMMING TRANSCRIPTION USING A STATISTICAL APPROACH FOR QUERY BY HUMMING SYSTEMS |
| Hsuan-Huei Shih, Shrikanth S. Narayanan, C.-C. Jay Kuo, University of Southern California, United States |
| AUDIO-P2.8: AUTOMATIC IDENTIFICATION OF BIRD SPECIES BASED ON SINUSOIDAL MODELING OF SYLLABLES |
| Aki Harma, Helsinki University of Technology, Finland |
| AUDIO-P2.9: STRUCTURAL ANALYSIS OF MUSICAL SIGNALS VIA PATTERN MATCHING |
| Wei Chai, Massachusetts Institute of Technology, United States |
| AUDIO-P2.10: A MISSING FEATURE APPROACH TO INSTRUMENT IDENTIFICATION IN POLYPHONIC MUSIC |
| Jana Eggink, Guy J. Brown, University of Sheffield, United Kingdom |
| AUDIO-P2.11: APPLICATION OF PITCH TRACKING TO SOUTH INDIAN CLASSICAL MUSIC |
| Arvindh Krishnaswamy, Stanford University, United States |
| AUDIO-P2.12: DIRECT ESTIMATION OF MUSICAL PITCH CONTOUR FROM AUDIO DATA |
| Adriane Durey, Mark Clements, Georgia Institute of Technology, United States |
| Top |
| AUDIO-P3: Echo Cancellation and Active Noise Control |
| AUDIO-P3.1: A NEW ADAPTIVE IIR ALGORITHM FOR ACTIVE NOISE CONTROL |
| Jing Lu, Xiaojun Qiu, Boling Xu, Nanjing University, China |
| AUDIO-P3.2: PERFORMANCE ANALYSIS OF THE UNCONSTRAINED FXLMS ALGORITHM FOR ACTIVE NOISE CONTROL |
| Yu Gong, Ying Song, Senjin Liu, Laboratories for Information Technology, Singapore |
| AUDIO-P3.3: A NEW VARIABLE STEP SIZE LMS ALGORITHM WITH APPLICATION TO ACTIVE NOISE CONTROL |
| Yue Wang, Chun Zhang, Zhihua Wang, Tsinghua University, China |
| AUDIO-P3.4: CONVERGENCE ANALYSIS OF MULTICHANNEL ANC SYSTEM USING FXLMS ALGORITHM WITH INEXACT SECONDARY PATH MODEL |
| Tak Keung Yeung, Sze Fong Yau, Hong Kong University of Science and Technology, China |
| AUDIO-P3.5: ACTIVE NOISE CONTROL WITHOUT A SECONDARY PATH MODEL BY USING A FREQUENCY-DOMAIN SIMULTANEOUS PERTURBATION METHOD WITH VARIABLE PERTURBATION |
| Yoshinobu Kajikawa, Yasuo Nomura, Kansai University, Japan |
| AUDIO-P3.6: MULTI-MICROPHONE RESIDUAL ECHO ESTIMATION |
| Markus Kallinger, Karl-Dirk Kammeyer, University of Bremen, Germany; Joerg Bitzer, Houpert Digital Audio, Germany |
| AUDIO-P3.7: A NEW NON-LINEAR PROCESSOR (NLP) FOR BACKGROUND CONTINUITY IN ECHO CONTROL |
| Oguz Tanrikulu, Tellabs, United States; Kutluyil Dogancay, University of South Australia, Australia |
| AUDIO-P3.8: A METHOD OF COHERENCE-BASED STEP-SIZE CONTROL FOR ROBUST STEREO ECHO CANCELLATION |
| Satoru Emura, Yoichi Haneda, NTT Corporation, Japan |
| AUDIO-P3.9: AN IMPROVED METHOD FOR STEREO ACOUSTIC ECHO CANCELATION |
| Maximilian Gauger, TU Darmstadt, Germany |
| AUDIO-P3.10: NONLINEAR ECHO CANCELLATION USING A CORRELATION LMS ADAPTATION SCHEME |
| Dong-O Hwang, Sang-Won Nam, Hong-Won Park, Hanyang University, Republic of Korea |
| AUDIO-P3.11: SUBBAND DOUBLETALK DETECTOR FOR ACOUSTIC ECHO CANCELLATION SYSTEMS |
| Jia Tao, Peking University, China; Jia Ying, Jian Li, Yongge Hu, Intel China Research Center, China |
| AUDIO-P3.12: OPTIMAL NON-LINEAR PROCESSOR CONTROL FOR RESIDUAL-ECHO SUPPRESSION |
| Milos Doroslovacki, George Washington University, United States |
| Top |
| AUDIO-P4: Multimedia, Spatial, Multichannel, and Network Audio |
| AUDIO-P4.1: THREE-DIMENSIONAL ELLIPTIC FOURIER METHODS FOR THE PARAMETERIZATION OF HUMAN PINNA SHAPE |
| Carl Hetherington, Anthony Tew, Yufei Tao, University of York, United Kingdom |
| AUDIO-P4.2: THE PLENACOUSTIC FUNCTION, SAMPLING AND RECONSTRUCTION |
| Thibaut Ajdler, Martin Vetterli, Swiss Federal Institute of Technology (EPFL), Switzerland |
| AUDIO-P4.3: AUDIO AND VIDEO COMBINED FOR HOME VIDEO ABSTRATION |
| Ming Zhao, Jiajun Bu, Chun Chen, Zhejiang University, China |
| AUDIO-P4.4: SCALABLE TO LOSSLESS AUDIO COMPRESSION BASED ON PERCEPTUAL SET PARTITIONING IN HIERARCHICAL TREES (PSPIHT) |
| Mohammed Raad, Alfred Mertins, Ian Burnett, University Of Wollongong, Australia |
| AUDIO-P4.5: COMPARING MFCC AND MPEG-7 AUDIO FEATURES FOR FEATURE EXTRACTION, MAXIMUM LIKELIHOOD HMM AND ENTROPIC PRIOR HMM FOR SPORTS AUDIO CLASSIFICATION |
| Ziyou Xiong, University of Illinois, Urbana-Champaign, United States; Regunathan Radhakrishnan, Ajay Divakaran, Mitsubishi Electric Research Laboratories, United States; Thomas Huang, University of Illinois, Urbana-Champaign, United States |
| AUDIO-P4.6: AUDIO EVENTS DETECTION BASED HIGHLIGHTS EXTRACTION FROM BASEBALL, GOLF AND SOCCER GAMES IN A UNIFIED FRAMEWORK |
| Ziyou Xiong, University of Illinois, Urbana-Champaign, United States; Regunathan Radhakrishnan, Ajay Divakaran, Mitsubishi Electric Research Laboratories, United States; Thomas Huang, University of Illinois, Urbana-Champaign, United States |
| AUDIO-P4.7: AUDIO RESTORATION BY CONSTRAINED AUDIO TEXTURE SYNTHESIS |
| Lie Lu, MIcrosoft Research Asia, China; Yi Mao, Zhejiang University, China; Liu Wenyin, City University of Hong Kong, Hong Kong SAR of China; Hong-Jiang Zhang, Microsoft Research Asia, China |
| AUDIO-P4.8: HARMONICITY AND DYNAMICS BASED AUDIO SEPARATION |
| S. H. Srinivasan, Mohan Kankanhalli, National University of Singapore, Singapore |
| AUDIO-P4.9: WEIGHT UPDATING FOR RELEVANCE FEEDBACK IN AUDIO RETRIEVAL |
| Mingchun Liu, Chunru Wan, Nanyang Technological University, Singapore |
| AUDIO-P4.10: SOUND TEXTURE MODELLING WITH LINEAR PREDICTION IN BOTH TIME AND FREQUENCY DOMAINS |
| Marios Athineos, Dan Ellis, Columbia University, United States |
| AUDIO-P4.11: PARAMETRIC VECTOR QUANTIZATION FOR CODING PERCUSSIVE SOUNDS IN MUSIC |
| Ye Wang, National University of Singapore, Singapore; Jian Tang, Ali Ahmaniemi, Nokia Research Center, Finland; Markus Vaalgamaa, Nokia Mobile Phones, Finland |
| AUDIO-P4.12: NONSTATIONARY SINUSOIDAL MODELING WITH EFFICIENT ESTIMATION OF LINEAR FREQUENCY CHIRP PARAMETERS |
| Aaron Master, Yi-Wen Liu, Stanford University, United States |
| Top |
| MMEDIA-L1: Multimedia Security |
| MMEDIA-L1.1: WATERMARKING PARAMETRIC REPRESENTATIONS FOR SYNTHETIC AUDIO |
| Yi-Wen Liu, Julius O. Smith, Stanford University, United States |
| MMEDIA-L1.2: NONLINEAR COLLUSION ATTACKS ON INDEPENDENT FINGERPRINTS FOR MULTIMEDIA |
| Hong Zhao, Min Wu, Z. Jane Wang, K. J. Ray Liu, University of Maryland, United States |
| MMEDIA-L1.3: FREQUENCY-SELECTIVE PARTIAL ENCRYPTION OF COMPRESSED AUDIO |
| Antonio Servetti, Cristiano Testa, Politecnico di Torino, Italy; Juan Carlos De Martin, IEIIT-CNR, Politecnico di Torino, Italy |
| MMEDIA-L1.4: OPTIMIZATION STRATEGIES FOR QUANTIZATION WATERMARKING WITH APPLICATION TO IMAGE AUTHENTICATION |
| Guixing Wu, En-hui Yang, Wei Sun, University of Waterloo, Canada |
| MMEDIA-L1.5: WATERMARKING OF 3D MODELS USING PRINCIPAL COMPONENT ANALYSIS |
| Andreas Kalivas, Anastasios Tefas, Ioannis Pitas, Aristotle University of Thessaloniki, Greece |
| MMEDIA-L1.6: A HYBRID CONSTRAINED UNEQUAL ERROR PROTECTION AND DATA HIDING SCHEME FOR PACKET VIDEO TRANSMISSION |
| Chowdary Adsumilli, Mylene Farias, University of California, Santa Barbara, United States; Marco Carli, University of ROME TRE, Italy; Sanjit Mitra, University of California, Santa Barbara, United States |
| Top |
| MMEDIA-L2: Multimedia Communication and Networking |
| MMEDIA-L2.1: ANALYSIS OF PACKET LOSS FOR COMPRESSED VIDEO: DOES BURST-LENGTH MATTER? |
| Yi Liang, Stanford University, United States; John Apostolopoulos, Hewlett-Packard Laboratories, United States; Bernd Girod, Stanford University, United States |
| MMEDIA-L2.2: FINE-GRAINED RATE SHAPING FOR VIDEO STREAMING OVER WIRELESS NETWORKS |
| Trista Chen, Tsuhan Chen, Carnegie Mellon University, United States |
| MMEDIA-L2.3: A SCHEDULED BROADCASTING PROTOCOL FOR EFFICIENT VIDEO ON DEMAND |
| Yeonjoon Chung, Ahmed Tewfik, University of Minnesota, United States |
| MMEDIA-L2.4: EMBEDDED IMAGE TRANSMISSION BASED ON ADAPTIVE MODULATION AND CONSTRAINED RETRANSMISSION OVER BLOCK FADING CHANNELS |
| Kewu Peng, John Kieffer, Qingwen Liu, Shengli Zhou, University of Minnesota, United States |
| MMEDIA-L2.5: A SPATIAL-DOMAIN ERROR CONCEALMENT METHOD WITH EDGE RECOVERY AND SELECTIVE DIRECTIONAL INTERPOLATION |
| Wei-Ying Kung, Chang-Su Kim, C.-C. Jay Kuo, University of Southern California, United States |
| MMEDIA-L2.6: COMPRESSION AND TRANSMISSION OF FACIAL IMAGES OVER VERY NARROWBAND WIRELESS CHANNELS |
| Aysegul Gunduz, Hamid Krim, North Carolina State University, United States; P. Allan Sadowski, North Carolina State Highway Patrol, United States |
| Top |
| MMEDIA-L3: Human-Machine Interface and Perception |
| MMEDIA-L3.1: NON-AUDIBLE MURMUR RECOGNITION INPUT INTERFACE USING STETHOSCOPIC MICROPHONE ATTACHED TO THE SKIN |
| Yoshitaka Nakajima, Hideki Kashioka, Kiyohiro Shikano, Nick Campbell, Nara Institute of Science and Technology, Japan |
| MMEDIA-L3.2: AUDIO-VISUAL SPEAKER RECOGNITION USING TIME-VARYING STREAM RELIABILITY PREDICTION |
| Upendra Chaudhari, Ganesh Ramaswamy, Gerasimos Potamianos, Chalapathy Neti, IBM T. J. Watson Research Center, United States |
| MMEDIA-L3.3: NOISE RESISTANT AUDIO-VISUAL VERIFICATION VIA STRUCTURAL CONSTRAINTS |
| Conrad Sanderson, IDIAP, Switzerland; Kuldip Paliwal, Griffith University, Australia |
| MMEDIA-L3.4: USING VISEME BASED ACOUSTIC MODELS FOR SPEECH DRIVEN LIP SYNTHESIS |
| Ashish Verma, Nitendra Rajput, Venkat Subramaniam, Indian Institute of Technology, India |
| MMEDIA-L3.5: MULTIMEDIA FUSION IN AUTOMATIC EXTRACTION OF STUDIO SPEECH SEGMENTS FOR SPOKEN DOCUMENT RETRIEVAL |
| Pui Yu Hui, Wai Kit Lo, Helen M. Meng, Chinese University of Hong Kong, Hong Kong SAR of China |
| MMEDIA-L3.6: EDITING BY VOICE AND THE ROLE OF SEQUENTIAL SYMBOL SYSTEMS FOR IMPROVED HUMAN-TO-COMPUTER INFORMATION RATES |
| Nils Klarlund, AT&T Labs - Research, United States |
| Top |
| MMEDIA-P1: Signal Processing for Media Integration |
| MMEDIA-P1.1: ADAPTIVE MULTIPLE DESCRIPTION CODING FOR INTERNET VIDEO |
| Osama Lotfallah, Sethuraman Panchanathan, Arizona State University, United States |
| MMEDIA-P1.2: EMBEDDED MULTIPLE DESCRIPTION SCALAR QUANTIZERS FOR PROGRESSIVE IMAGE TRANSMISSION |
| Augustin Ion Gavrilescu, Adrian Munteanu, Peter Schelkens, Jan Cornelis, Vrije Universiteit Brussel , Belgium |
| MMEDIA-P1.3: SCHEMES FOR ERROR RESILIENT STREAMING OF PERCEPTUALLY CODED AUDIO |
| Jari Korhonen, Nokia Research Center, Finland; Ye Wang, National University of Singapore, Singapore |
| MMEDIA-P1.4: OPTIMAL QOS MAPPING FOR STREAMING VIDEO OVER DIFFERENTIATED SERVICES NETWORKS |
| Fei Zhang, Mark Pickering, Michael Frater, John Arnold, University College ADFA, University of NSW, Australia |
| MMEDIA-P1.5: SPATIO-TEMPORAL VIDEO ERROR CONCEALMENT WITH PERCEPTUALLY OPTIMIZED MODE SELECTION |
| Stefano Belfiore, Marco Grangetto, Enrico Magli, Gabriella Olmo, Politecnico di Torino, Italy |
| MMEDIA-P1.6: LAYERED FGS VIDEO OVER ACTIVE NETWORK WITH SELECTIVE DROP AND ADAPTIVE RATE CONTROL |
| Hsu-Feng Hsiao, Jenq-Neng Hwang, University of Washington, United States |
| MMEDIA-P1.7: SLIDING-WINDOW PACKETIZATION FOR FORWARD ERROR CORRECTION BASED MULTIPLE DESCRIPTION TRANSCODING |
| Tong Gan, Kai-Kuang Ma, Nanyang Technological University, Singapore |
| MMEDIA-P1.8: IMPROVED TECHNIQUES FOR DUAL-BITSTREAM MPEG VIDEO STREAMING WITH VCR FUNCTIONALITIES |
| Shih-Yu Huang, Ming Chuan University, Taiwan |
| MMEDIA-P1.9: EVALUATION OF JOINT SOURCE AND CHANNEL CODING OVER WIRELESS NETWORKS |
| Yuxin Liu, Purdue University, United States; Christine Podilchuk, Bell Labs, Lucent Technologies, United States; Edward J. Delp, Purdue University, United States |
| MMEDIA-P1.10: APPLICATION LEVEL SELECTIVE DROP FOR LAYERED VIDEO OVER MULTICAST NETWORKS |
| Qiang Liu, Jenq-Neng Hwang, University of Washington, United States |
| MMEDIA-P1.11: AUDIO-VISUAL SYNCHRONY FOR DETECTION OF MONOLOGUES IN VIDEO ARCHIVES |
| Giridharan Iyengar, Harriet Nock, Chalapathy Neti, IBM T. J. Watson Research Center, United States |
| MMEDIA-P1.12: WHY TAKE NOTES? USE THE WHITEBOARD CAPTURE SYSTEM |
| Li-wei He, Zicheng Liu, Zhengyou Zhang, Microsoft Research, United States |
| Top |
| MMEDIA-P2: Multimedia Applications |
| MMEDIA-P2.1: AN AUDIO-VISUAL APPROACH TO SIMULTANEOUS-SPEAKER SPEECH RECOGNITION |
| Eric Patterson, University of North Carolina, Wilmington, United States; John Gowdy, Clemson University, United States |
| MMEDIA-P2.2: A MULTIMODAL LEARNING INTERFACE FOR WORD ACQUISITION |
| Dana Ballard, Chen Yu, University of Rochester, United States |
| MMEDIA-P2.3: ENVIRONMENT-ADAPTIVE MULTI-CHANNEL BIOMETRICS |
| Stephen M. Chu, Minerva Yeung, Luhong Liang, Xiaoxing Liu, Intel Corporation, United States |
| MMEDIA-P2.4: OSCILLATORY GESTURES AND DISCOURSE |
| Francis Quek, Yingen Xiong, Wright State University, United States |
| MMEDIA-P2.5: A FAST SEARCH ALGORITHM FOR BACKGROUND MUSIC SIGNALS BASED ON THE SEARCH FOR NUMEROUS SMALL SIGNAL COMPONENTS |
| Hidehisa Nagano, Kunio Kashino, Hiroshi Murase, NTT Corporation, Japan |
| MMEDIA-P2.6: NEAR-VIDEOREALISTIC SYNTHETIC VISUAL SPEECH USING NON-RIGID APPEARANCE MODELS |
| Barry-John Theobald, Gavin Cawley, University of East Anglia, United Kingdom; Iain Matthews, Carnegie Mellon University, United States; Andrew Bangham, University of East Anglia, United Kingdom |
| MMEDIA-P2.7: ROBUST CORNER TRACKING FOR UNCONSTRAINED MOTION |
| Farahnaz Mohanna, University of Surrey , United Kingdom; Farzin Mokhtarian, University of Surrey, United Kingdom |
| MMEDIA-P2.8: COLLABORATIVE KNOWLEDGE BASE AND ITS APPLICATION IN ADAPTIVE MESSAGE FILTERING FOR COLLABORATIVE VIRTUAL ENVIRONMENT |
| Chen Ling, Chen Gencai, Zhejiang university, China |
| MMEDIA-P2.9: AUDIOVISUAL-BASED ADAPTIVE SPEAKER IDENTIFICATION |
| Ying Li, Shrikanth S. Narayanan, C.-C. Jay Kuo, University of Southern California, United States |
| MMEDIA-P2.10: CORRELATIVE EXPLORATION OF EEG SIGNALS FOR DIRECT BRAIN-COMPUTER COMMUNICATION |
| Gary Garcia, Touradj Ebrahimi, Jean-Marc Vesin, Swiss Federal Institute of Technology (EPFL), Switzerland |
| MMEDIA-P2.11: A SEMANTIC NETWORK MODELING FOR UNDERSTANDING BASEBALL VIDEO |
| Huang-Chia Shih, Chung-Lin Huang, National Tsing-Hua University, Taiwan |
| Top |
| SPTM-L1: Filter Design |
| SPTM-L1.1: OPTIMAL FIR FILTERS WITH ALMOST LINEAR PHASE |
| Daniel Seidner, Creo IL Ltd., Israel |
| SPTM-L1.2: A DESIGN METHOD OF MINIMUM PHASE FIR FILTERS WITH COMPLEX COEFFICIENTS |
| Yasunori Sugita, Naoyuki Aikawa, Nihon University, Japan |
| SPTM-L1.3: A WEIGHTED L_2 BASED METHOD FOR THE DESIGN OF ARBITRARY ONE DIMENSIONAL FIR DIGITAL FILTERS |
| Emmanouil Psarakis, University of Patras, Greece |
| SPTM-L1.4: DESIGN OF ROBUST IIR MAGNITUDE FILTERS VIA SEMIDEFINITE PROGRAMMING |
| Yonghong Liu, Zhi-Quan Luo, McMaster University, Canada |
| SPTM-L1.5: LINEAR PHASE EQUIRIPPLE IIR DIGITAL FILTER DESIGN |
| H. K. Kwan, University of Windsor, Canada |
| SPTM-L1.6: EQUIVALENCE BETWEEN THE EXTENDED WINDOW DESIGN OF IIR FILTERS AND LEAST SQUARES FREQUENCY DOMAIN DESIGNS |
| Grigore Braileanu, Gonzaga University, United States |
| Top |
| SPTM-L2: System Modeling and Representation |
| SPTM-L2.1: RATE-LIMITED EAFRP: A NEW IMPROVED MODEL FOR HIGH-SPEED NETWORK TRAFFIC |
| Jie Yu, Athina Petropulu, Harish Sethu, Drexel University, United States |
| SPTM-L2.2: A DIFFERENTIAL ENTROPY BASED METHOD FOR DETERMINING THE OPTIMAL EMBEDDING PARAMETERS OF A SIGNAL |
| Temujin Gautama, Katholieke Universiteit Leuven, Belgium; Danilo Mandic, Imperial College of Science, Technology and Medicine, United Kingdom; Marc Van Hulle, Katholieke Universiteit Leuven, Belgium |
| SPTM-L2.3: BAYESIAN NETWORK LOSS INFERENCE |
| Dong Guo, Xiaodong Wang, Columbia University, United States |
| SPTM-L2.4: THE IMPACT OF THE FLOW ARRIVAL PROCESS IN INTERNET TRAFFIC |
| Nicolas Hohn, Darryl Veitch, University of Melbourne, Australia; Patrice Abry, Ecole Normale Superieure deLyon, France |
| SPTM-L2.5: MODELING CELLULAR SIGNAL PROCESSING USING INTERACTING MARKOV CHAINS |
| Maya R. Said, Alan V. Oppenheim, Douglas A. Lauffenburger, Massachusetts Institute of Technology, United States |
| SPTM-L2.6: CHARACTERIZATION OF A SET OF INVERTIBLE LPTV FILTERS USING CIRCULANT MATRICES |
| Wilfried Chauvet, Bernard Lacaze, Daniel Roviras, ENSEEIHT/IRIT/TÉSA, France; Alban Duverdier, CNES, France |
| Top |
| SPTM-L3: Tracking and State Estimation |
| SPTM-L3.1: MANEUVERING TARGET DETECTION IN OVER-THE-HORIZON RADAR BY USING ADAPTIVE CHIRPLET TRANSFORM AND SUBSPACE CLUTTER REJECTION |
| Genyuan Wang, University of Delware, United States; Xiang-Gen Xia, University of Delaware, United States; Benjamin Root, Victor Chen, Naval Research Laboratory, United States; Yimin Zhang, Villanova University, United States; Moeness Amin, Villanova University , United States |
| SPTM-L3.2: A DUAL ADAPTIVE MODEL ESTIMATOR FOR TARGET TRACKING |
| Chi Li, T. Tao, Xiaohui Dai, Hong Kong Polytechnic University, China |
| SPTM-L3.3: KALMAN FILTERING USING PAIRWISE GAUSSIAN MODELS |
| Wojciech Pieczynski, François Desbouvries, Institut National des Télécommunications, France |
| SPTM-L3.4: A NOTE ON STATE ESTIMATION AS A CONVEX OPTIMIZATION PROBLEM |
| Thomas Schön, Fredrik Gustafsson, Anders Hansson, Linköping University, Sweden |
| SPTM-L3.5: PARTICLE FILTERING AND CRAMÉR-RAO LOWER BOUND FOR UNDERWATER NAVIGATION |
| Rickard Karlsson, Fredrik Gustafsson, Linköping University, Sweden; Tobias Karlsson, Saab Bofors Underwater Systems, Sweden |
| SPTM-L3.6: ONLINE EXPECTATION-MAXIMIZATION TYPE ALGORITHMS FOR PARAMETER ESTIMATION IN GENERAL STATE SPACE MODELS |
| Christophe Andrieu, Bristol University, United Kingdom; Arnaud Doucet, University of Cambridge, United Kingdom |
| Top |
| SPTM-L4: LMS-based Adaptive Filtering |
| SPTM-L4.1: A ROBUST LMS-BASED FOURIER ANALYZER CAPABLE OF ACCOMMODATING THE FREQUENCY MISMATCH |
| Yegui Xiao, Rabab Ward, Liying Ma, University of British Columbia, Canada; Li Xu, Akita Prefectural University, Japan |
| SPTM-L4.2: AN EFFICIENT BLOCK FLOATING POINT IMPLEMENTATION OF THE LMS ALGORITHM |
| Mrityunjoy Chakraborty, Abhijit Mitra, Indian Institute of Technology, India; Hideaki Sakai, Kyoto University, Japan |
| SPTM-L4.3: SIMPLIFIED LMS ALGORITHMS IN THE CASE OF NON-UNIFORMLY SAMPLED SIGNALS |
| Elisabeth Lahalle, Ecole Supérieure d'Electricité, France; Pablo Faus Perez, Universidad Politecnica de Valencia, Spain; Gilles Fleury, Ecole Supérieure d'Electricité, France |
| SPTM-L4.4: A GRADIENT ADAPTIVE STEP SIZE ALGORITHM FOR IIR FILTERS |
| Christos Boukis, Danilo Mandic, Eftychios Papoulis, Anthony Constantinides, Imperial College, United Kingdom |
| SPTM-L4.5: A JUSTIFICATION FOR THE IMPROVED PERFORMANCE OF THE MULTI-SPLIT LMS ALGORITHM |
| Richard Demo Souza, Leonardo Silva Resende, GPqCOM - EEL - UFSC, Brazil; Maurice Gerard Bellanger, CNAM, France |
| SPTM-L4.6: CONSTANT MODULUS PERFORMANCE SEARCH USING LMS METHOD |
| Hamadi Jamali, Tokunbo Ogunfunmi, Santa Clara University, United States |
| Top |
| SPTM-L5: Applications of Multirate Signal Processing |
| SPTM-L5.1: INTERSCALE IMAGE DENOISING WITH WAVELET CONTEXT MODELING |
| Lei Zhang, Hong Kong Polytechnic University, Hong Kong SAR of China; Paul Bao, Chinese University of Hong Kong, Hong Kong SAR of China; David Zhang, Hong Kong Polytechnic University, Hong Kong SAR of China |
| SPTM-L5.2: WAVELET-KALMAN METHOD FOR IMAGE COMPRESSION |
| Afshin David, University of Turku, Finland |
| SPTM-L5.3: OPTIMAL BIT-RATE ALLOCATION AND SYNTHESIS FILTER BANK DESIGN FOR MULTIRATE SUBBAND CODING SYSTEMS |
| Huan Zhou, Lihua Xie, Cishen Zhang, Nanyang Technological University, Singapore |
| SPTM-L5.4: LEAST SQUARES DESIGN OF NONUNIFORM FILTER BANKS WITH EVALUATION IN SPEECH ENHANCEMENT |
| Jan Mark de Haan, Ingvar Claesson, Blekinge Institute of Technology, Sweden; Harald Gustafsson, Ericsson Mobile Platforms, Sweden |
| SPTM-L5.5: TIME DELAY ESTIMATION AND SIGNAL RECONSTRUCTION USING MULTI-RATE MEASUREMENTS |
| Omid Jahromi, Parham Aarabi, University of Toronto, Canada |
| SPTM-L5.6: FACE RECOGNITION USING DISCRETE WAVELET GRAPH |
| Kun Ma, Xiaoou Tang, Chinese University of Hong Kong, Hong Kong SAR of China |
| Top |
| SPTM-L6: Time-varying Spectral Estimation |
| SPTM-L6.1: INSTANTANEOUS FREQUENCY ESTIMATION BY USING WIGNER DISTRIBUTION AND VITERBI ALGORITHM |
| LJubisa Stankovic, Igor Djurovic, University of Montenegro, Yugoslavia; Akira Ohsumi, Hiroshi Ijima, Kyoto Institute of Technology, Japan |
| SPTM-L6.2: TIME-FREQUENCY-AUTOREGRESSIVE RANDOM PROCESSES: MODELING AND FAST PARAMETER ESTIMATION |
| Michael Jachan, Gerald Matz, Franz Hlawatsch, Vienna University of Technology, Austria |
| SPTM-L6.3: SIMULTANEOUS DETECTION AND PARAMETER ESTIMATION OF MULTIPLE LINEAR CHIRPS |
| Jasdeep Dhanoa, Evan Hughes, Richard Ormondroyd, Cranfield University, United Kingdom |
| SPTM-L6.4: SINUSOIDAL MODELING BASED ON INSTANTANEOUS FREQUENCY ATTRACTORS |
| Toshihiko Abe, Masaaki Honda, NTT Corporation, Japan |
| SPTM-L6.5: ESTIMATION OF DAMPED & DELAYED SINUSOIDS : ALGORITHM AND CRAMER-RAO BOUND |
| Rémy Boyer, ENST , France; Karim Abed-Meraim, ENST, France |
| SPTM-L6.6: INSTANTANEOUS FREQUENCY ESTIMATION USING LEVEL-CROSSING INFORMATION |
| Seelamantula Chandrasekhar, Thippur V Sreenivas, Indian Institute of Science, India |
| Top |
| SPTM-L7: Classification and Segmentation |
| SPTM-L7.1: A SMALL SAMPLE MODEL SELECTION CRITERION BASED ON KULLBACK'S SYMMETRIC DIVERGENCE |
| Abd-Krim Seghouane, Maiza Bekara, Gilles Fleury, SUPELEC, France |
| SPTM-L7.2: KERNEL SECOND-ORDER DISCRIMINANTS VERSUS SUPPORT VECTOR MACHINES |
| Fahed Abdallah, Cédric Richard, Régis Lengelle, Troyes University of Technology, France |
| SPTM-L7.3: CORT: CLASSIFICATION OR REGRESSION TREES |
| Clayton Scott, Rebecca Willett, Robert Nowak, Rice University, United States |
| SPTM-L7.4: A GENERAL SOLUTION TO THE MAXIMIZATION OF THE MULTIDIMENSIONAL GENERALIZED RAYLEIGH QUOTIENT USED IN LINEAR DISCRIMINANT ANALYISIS FOR SIGNAL CLASSIFICATION |
| Ramon Prieto, Stanford University, United States |
| SPTM-L7.5: STRUCTURAL RISK MINIMIZATION USING NEAREST NEIGHBOR RULE |
| Abdessamad Ben Hamza, Hamid Krim, Bilge Karacali, North Carolina State University, United States |
| SPTM-L7.6: HIERARCHICAL BAYESIAN SEGMENTATION OF SIGNALS CORRUPTED BY MULTIPLICATIVE NOISE |
| Jean-Yves Tourneret, ENSEEIHT/IRIT, France; S. Suparman, University Paul Sabatier, France; Michel Doisy, ENSEEIHT/IRIT, France |
| Top |
| SPTM-L8: Denoising |
| SPTM-L8.1: RECONSTRUCTION OF BANDLIMITED SIGNALS FROM NOISY DATA BY THRESHOLDING |
| Vu-Luu Nguyen, Mirek Pawlak, University of Manitoba, Canada |
| SPTM-L8.2: DENOISING IN THE LAPPED TRANSFORM DOMAIN |
| Seungjoon Yang, Samsung Electronics Co., Ltd., Republic of Korea; Truong Q. Nguyen, University of California, San Diego, United States |
| SPTM-L8.3: BAYESIAN MULTIFRACTAL SIGNAL DENOISING |
| Jacques Levy-Vehel, INRIA , France; Pierrick Legrand, IRCCyN / LCPC, France |
| SPTM-L8.4: TIME SCALE MODIFICATION OF NOISES USING A SPECTRAL AND STATISTICAL MODEL |
| Pierre Hanna, Myriam Desainte-Catherine, Université de Bordeaux 1, France |
| SPTM-L8.5: NOISE VARIANCE IN SIGNAL DENOISING |
| Soosan Beheshti, Munther Dahleh, Massachusetts Institute of Technology, United States |
| SPTM-L8.6: DENOISING OF SEISMIC SIGNALS WITH OVERSAMPLED FILTER BANKS |
| Laurent Duval, Institut Francais du Petrole, France; Toshihisa Tanaka, Brain Science Institute, RIKEN, Japan |
| Top |
| SPTM-P1: Applications of Adaptive Filtering |
| SPTM-P1.1: A PILOTED ADAPTIVE NOTCH FILTER |
| Yong Ching Lim, National University of Singapore, Singapore; Yuexian Zou, Singapore Polytechnic, Singapore; N. Zheng, National University of Singapore, Singapore |
| SPTM-P1.2: ECHO CANCELLATION BY GLOBAL OPTIMIZATION OF KAUTZ FILTERS USING AN INFORMATION THEORETIC CRITERION |
| Ching-An Lai, Deniz Erdogmus, Jose C. Principe, University of Florida, United States |
| SPTM-P1.3: ADAPTIVE FREQUENCY ESTIMATION BASED ON NORMAL REALIZATIONS AND ITS APPLICATION IN SPEECH PROCESSING |
| Jiong Zhou, Gang Li, Nanyang Technological University, Singapore |
| SPTM-P1.4: PERFORMANCE EVALUATION OF AN AUTOMATIC SPEECH RECOGNISER INCORPORATING A FAST ADAPTIVE SPEECH SEPARATION ALGORITHM |
| Kutluyil Dogancay, University of South Australia, Australia; Jason Littlefield, Ahmad Hashemi-Sakhtsari, Defence Science and Technology Organisation, Australia |
| SPTM-P1.5: AFFINE PROJECTION ALGORITHM FOR OVERSAMPLED SUBBAND ADAPTIVE FILTERS |
| Hamid Reza Abutalebi, Amirkabir University of Technology, Iran; Hamid Sheikhzadeh, Robert Brennan, Dspfactory Ltd., Canada; George Freeman, University of Waterloo, Canada |
| SPTM-P1.6: ADAPTIVE ACTIVE NOISE CONTROL WITHOUT SECONDARY PATH IDENTIFICATION |
| Akira Sano, Yuhsuke Ohta, Keio University, Japan |
| SPTM-P1.7: COMPARATIVE STUDY OF TECHNIQUES TO COMPUTE FIR FILTER WEIGHTS IN ADAPTIVE CHANNEL EQUALIZATION |
| Christian Vincent Sinn, Jürgen Götze, University of Dortmund, Germany |
| SPTM-P1.8: A GRADIENT ALGORITHM FOR PHASE-ONLY ADAPTIVE FIR FILTERING |
| John D. Norris, Scott C. Douglas, Southern Methodist University, United States |
| SPTM-P1.9: INTERFERENCE SUPPRESSION WITH MINIMAL SIGNAL DISTORTION |
| A. A. (Louis) Beex, Virginia Tech, United States; James R. Zeidler, SPAWAR Systems Center, United States |
| SPTM-P1.10: ADAPTIVE ESPRIT ALGORITHM BASED ON THE PAST SUBSPACE TRACKER |
| Roland Badeau, Gaël Richard, Bertrand David, Ecole Nationale Supérieure des Télécommunications, France |
| SPTM-P1.11: EFFICIENT IMPLEMENTATION OF ECHO CANCELLER FOR APPLICATIONS WITH ASYMMETRIC RATES |
| Alper Erdogan, Koc University, Turkey; Bijit Halder, Telicos Corp., United States; Tzu-Hsien Sang, National Chiao Tung University, Taiwan; Ahmet Karakas, Stanford University, United States |
| Top |
| SPTM-P2: Sampling, Extrapolation and Interpolation |
| SPTM-P2.1: LINEAR PHASE LAGRANGE INTERPOLATION FILTER USING ODD NUMBER OF BASEPOINTS |
| Zhuan Ye, Motorola Labs, United States |
| SPTM-P2.2: RECOVERY OF DIGITIZED SIGNALS USING SLEPIAN FUNCTIONS |
| Gilbert G. Walter, University of Wisconsin, United States; Xiaoping Shen, Ohio University, United States |
| SPTM-P2.3: AN FM DEMODULATION ALGORITHM WITH AN UNDERSAMPLING RATE |
| Yiyuan Xiong, Yi Huang, Jason Ralph, Waleed Al-Nuaimy, Pu Sun, University of Liverpool, United Kingdom |
| SPTM-P2.4: SUPER-RESOLUTION OF INTERLEAVED SAMPLED SIGNALS |
| Derek Justice, Joel Trussell, Robert Hartwig, North Carolina State University, United States |
| SPTM-P2.5: QUANTITATIVE NOISE ANALYSIS OF JITTER-INDUCED NONUNIFORMLY SAMPLED-AND-HELD SIGNALS |
| Sai-Weng Sin, Seng-Pan U., Rui Paulo Martins, University of Macau, Macao SAR of China |
| SPTM-P2.6: OPTIMAL SAMPLING FUNCTIONS IN NONUNIFORM SAMPLING DRIVER DESIGNS TO OVERCOME THE NYQUIST LIMIT |
| Frank Papenfuß, University of Rostock, Germany; Y. Artyukh, E. Boole, Institute of Electronics & Computer Science, Latvia; D. Timmermann, University of Rostock, Germany |
| SPTM-P2.7: INTERPOLATION OF SIGNALS BY GENERALIZED PIECEWISE-LINEAR MULTIPLE GENERATORS |
| Koichi Ichige, Yokohama National University, Japan; Thierry Blu, Michael Unser, Swiss Federal Institute of Technology (EPFL), Switzerland |
| SPTM-P2.8: DESIGN OF NARROWBAND FIR FILTERS WITH MINIMAL NOISE GAIN USING COMPLEX INTERPOLATION |
| Konsta Koppinen, Tampere University of Technology, Finland |
| SPTM-P2.9: KERNEL WITH BLOCK STRACTURE FOR SAMPLING RATE CONVERTER |
| Naoyuki Aikawa, Nihon University , Japan; Yukio Mori, Salesian Polytechnic, Japan |
| SPTM-P2.10: IMAGE ENLARGEMENT USING FRACTAL |
| King-Hong Chung, Yik-hing Fung, Yuk-Hee Chan, Hong Kong Polytechnic University, Hong Kong SAR of China |
| SPTM-P2.11: ANALYSIS OF MISMATCH NOISE IN RANDOMLY INTERLEAVED ADC SYSTEM |
| Jonas Elbornsson, Fredrik Gustafsson, Linköping University, Sweden; Jan-Erik Eklund, Infineon Technologies, Sweden |
| SPTM-P2.12: ON THE DESIGN OF VARIABLE FRACTIONAL DELAY FILTERS WITH LAGUERRE AND KAUTZ FILTERS |
| Greg Cook, Yee Hong Leung, Curtin University of Technology, Australia; Yanqun Liu, Hong Kong Polytechnic University, Hong Kong SAR of China |
| Top |
| SPTM-P3: System Identification and Spectrum Estimation |
| SPTM-P3.1: ON THE STABILITY OF CONSTRAINED LINEAR PREDICTIVE MODELS |
| Tom Bäckström, Paavo Alku, Helsinki University of Technology, Finland |
| SPTM-P3.2: WAVELET ESTIMATION OF CYCLOSPECTRA |
| Sami Touati, Jean-Christophe Pesquet, Université de Marne la Vallée, France |
| SPTM-P3.3: BLIND ESTIMATION OF BANDLIMITED CHANNELS: A LOW COMPLEXITY APPROACH |
| Sarod Yatawatta, Athina Petropulu, Riddhi Dadttani, Drexel University, United States |
| SPTM-P3.4: TIME FREQUENCY ANALYSIS AND PARAMETRIC APPROXIMATION OF ROOM IMPULSE RESPONSES |
| John Sarris, George Cambourakis, National Technical University of Athens, Greece |
| SPTM-P3.5: SIGNALS IN COLOURED NOISE: JOINT NON-PARAMETRIC ESTIMATION OF SIGNAL AND OF NOISE SPECTRUM |
| Victor Solo, University of New South Wales, Australia |
| SPTM-P3.6: ESTIMATION OF TIME-VARYING AR MODELS OF SPEECH THROUGH GAUSS-MARKOV MODELING |
| Krishna Malladi, Hellosoft Inc, United States; Ratnam Raja kumar, Indian Institute of Technology, India |
| SPTM-P3.7: RECURSIVE ESTIMATION OF WAVELET BASED TIME VARYING AR MODELS OF SPEECH |
| Sreekanth Reddy K, Hughes Software Systems, India; R.V. Raja kumar, Indian Institute of Technology, India |
| SPTM-P3.8: A STOCHASTIC MODEL FOR THE CONVERGENCE BEHAVIOR OF THE AFFINE PROJECTION ALGORITHM FOR GAUSSIAN INPUTS |
| Sérgio Almeida, Catholic University of Pelotas, Brazil; José Carlos Bermudez, Federal University of Santa Catarina, Brazil; Neil Bershad, University of California, Irvine, United States; Márcio Costa, Catholic University of Pelotas, Brazil |
| SPTM-P3.9: BAYESIAN FORMULATION OF SUBBAND AUTOREGRESSIVE MODELLING WITH BOUNDARY CONTINUITY CONSTRAINTS |
| James R. Hopgood, Peter J. R. Rayner, University of Cambridge, United Kingdom |
| SPTM-P3.10: A HYBRID SUBSPACE PROJECTION METHOD FOR SYSTEM IDENTIFICATION |
| Sung-Phil Kim, Yadunandana N. Rao, Deniz Erdogmus, University of Florida , United States; Jose C. Principe, University of Florida, United States |
| SPTM-P3.11: BOOTSTRAPPING KERNEL SPECTRAL DENSITY ESTIMATES WITH KERNEL BANDWIDTH ESTIMATION |
| Abdelhak Zoubir, Curtin University of Technology, Australia |
| SPTM-P3.12: IMPROVING FREQUENCY RESOLUTION FOR CORRELATION-BASED SPECTRAL ESTIMATION METHODS USING SUBBAND DECOMPOSITION |
| David Bonacci, Corinne Mailhes, TÉSA/ENSEEIHT, France; Petar M. Djuric, Stony Brook University, United States |
| Top |
| SPTM-P4: Adaptive Filtering |
| SPTM-P4.1: A NORMALIZED MIXED--NORM ADAPTIVE FILTERING ALGORITHM ROBUST UNDER IMPULSIVE NOISE INTERFERENCE |
| Danilo Mandic, Eftychios Papoulis, Christos Boukis, Imperial College, United Kingdom |
| SPTM-P4.2: ADAPTIVE BLIND IDENTIFICATION OF SIMO SYSTEMS USING CHANNEL CROSS-RELATION IN THE FREQUENCY DOMAIN |
| Yiteng (Arden) Huang, Jacob Benesty, Jingdong Chen, Bell Labs, Lucent Technologies, United States |
| SPTM-P4.3: ANALYSIS OF ADAPTIVE FILTER ALGORITHMS IN FEEDBACK SYSTEMS |
| Hideaki Sakai, Shotaro Inoue, Kyoto University, Japan |
| SPTM-P4.4: ADAPTIVE ENVELOPE-CONSTRAINED FILTERING |
| Ba-Ngu Vo, Sumeetpal Singh, Vladislav B. Tadic, University of Melbourne, Australia |
| SPTM-P4.5: BLOCK IMPLEMENTATION OF A SYNCHRONIZED LEARNING ALGORITHM IN ADAPTIVE LATTICE FILTERS |
| Naoki Tokui, Ishikawa National College of Technology, Japan; Kenji Nakayama, Akihiro Hirano, Kanazawa University, Japan |
| SPTM-P4.6: TRANSIENT BEHAVIOR OF AFFINE PROJECTION ALGORITHMS |
| Hyun-Chool Shin, Pohang University of Science and Technology, Republic of Korea; Ali Sayed, University of California, Los Angeles, United States |
| SPTM-P4.7: AN ADAPTIVE VARIABLE STEP-SIZE PRE-FILTER BANK ALGORITHM FOR COLORED ENVIRONMENTS |
| Ting Liu, Saeed Gazor, Queen's University, Canada |
| SPTM-P4.8: ADAPTIVE FILTERING ALGORITHMS FOR PROMOTING SPARSITY |
| Bhaskar Rao, Bongyong Song, University of California, San Diego, United States |
| SPTM-P4.9: NONCAUSAL FILTERS: POSSIBLE IMPLEMENTATIONS AND THEIR COMPLEXITY |
| Davide Mattera, Università di Napoli ''Federico II'', Italy; Francesco Palmieri, Seconda Università di Napoli, Italy; Armando Fiore, Università di Napoli ''Federico II'', Italy |
| SPTM-P4.10: NEW RESULTS ON THE STABILITY ANALYSIS OF THE LMF (LEAST MEAN FOURTH) ADAPTIVE ALGORITHM |
| Pedro Hubscher, National Institute for Space Research, Brazil; Vítor Nascimento, University of São Paulo, Brazil; José Carlos Bermudez, Federal University of Santa Catarina, Brazil |
| SPTM-P4.11: A NECESSARY AND SUFFICIENT CONDITION FOR THE BIBO STABILITY OF GENERAL-ORDER BODE-TYPE VARIABLE-AMPLITUDE WAVE-DIGITAL EQUALIZERS |
| Behrouz Nowrouzian, University of Alberta, Canada; Arthur T.G. Fuller, Nortel networks, Canada; M. N. S. Swamy, Concordia university, Canada |
| SPTM-P4.12: AN OPTIMISED NORMALISED LMF ALGORITHM FOR SUB-GAUSSIAN NOISE |
| Mun Keat Chan, Queen's University Belfast, United Kingdom; Azzedine Zerguine, King Fahd University of Petroleum and Minerals, Saudi Arabia; Colin Cowan, Queen's University Belfast, United Kingdom |
| Top |
| SPTM-P5: Mathematical Techniques for Multirate Signal Processing |
| SPTM-P5.1: BASES FOR THE WHOLE SAMPLE SYMMETRIC FILTER BANKS USING A COMPLEX ALLPASS FILTER |
| Magdy Hanna, Cairo University / Fayoum Branch, Egypt |
| SPTM-P5.2: EFFICIENT SHARPENING OF CIC DECIMATION FILTER |
| Gordana Jovanovic-Dolecek, INAOE, Mexico; Sanjit Mitra, University of California, Santa Barbara, United States |
| SPTM-P5.3: SOLUTION TO THE ORTHOGONAL M-CHANNEL BANDLIMITED WAVELET CONSTRUCTION PROPOSITION |
| Bryce Tennant, Harris RF Communications, United States; Raghuveer Rao, Rochester Institute of Technology, United States |
| SPTM-P5.4: GROUP DELAY APPROXIMATION OF ALLPASS DIGITAL FILTERS BY TRANSFORMING THE DESIRED RESPONSE |
| Tatsuya Matsunaga, Masaaki Ikehara, Keio University, Japan |
| SPTM-P5.5: THE SYMMETRIC RUDIN-SHAPIRO TRANSFORM - AN EASY, STABLE, AND FAST CONSTRUCTION OF MULTIPLE ORTHOGONAL SPREAD SPECTRUM SIGNALS |
| Anders la Cour-Harbo, Aalborg University, Denmark |
| SPTM-P5.6: A MEMORY EFFICIENT ALGORITHM FOR MULTI-DIMENSIONAL WAVELET TRANSFORM BASED ON LIFTING |
| Zeinab Taghavi Nasrabadi, Sharif University Of Technology, Iran; Shohreh Kasaei, Sharif University of Technology, Iran |
| SPTM-P5.7: CHARACTERIZATION OF APPROXIMATION ORDER OF MULTI-SCALING FUNCTIONS VIA REFINABLE SUPER FUNCTIONS |
| Huseyin Ozkaramanli, Eastern Mediterranean University, Turkey; Runyi Yu, Eastern Mediterranean university, Turkey |
| SPTM-P5.8: WEYL-HEISENBERG SIGNAL EXPANSIONS OVER R IN L2(Z) AND DUALITY RELATIONS INVOLVING MDFT FILTER BANKS |
| Cyrille Siclet, Université catholique de Louvain, Belgium; Pierre Siohan, IRISA-INRIA, France |
| SPTM-P5.9: THE MINIMAX DESIGN OF DIGITAL ALL-PASS FILTERS WITH PRESCRIBED POLE RADIUS CONSTRAINT USING SEMIDEFINITE PROGRAMMING (SDP) |
| Carson K. S. Pun, University of California, San Diego, United States; Shing-Chow Chan, University of Hong Kong, Hong Kong SAR of China |
| SPTM-P5.10: ON THE PHASE CONDITION AND ITS SOLUTION FOR HILBERT TRANSFORM PAIRS OF WAVELETS BASES |
| Huseyin Ozkaramanli, Runyi Yu, Eastern Mediterranean University, Turkey |
| SPTM-P5.11: A COMPLETE FAMILY OF SCALING FUNCTIONS: THE (ALPHA,TAU)-FRACTIONAL SPLINES |
| Thierry Blu, Michael Unser, Swiss Federal Institute of Technology (EPFL), Switzerland |
| SPTM-P5.12: ADAPTED FILTER BANKS IN MACHINE LEARNING |
| Daniel J. Strauss, Institute for New Materials, Germany; W. Delb, J. Jung, P. K. Plinkert, Saarland University Hospital, Germany |
| Top |
| SPTM-P6: Non-stationary Signals and Time-frequency Analysis |
| SPTM-P6.1: DETECTION OF EEG BASIC RHYTHM FEATURE BY USING BAND RELATIVE INTENSITY RATIO(BRIR) |
| Zhong Ji, Shuren Qin, test center of Chongqing University, China |
| SPTM-P6.2: OPTIMIZED LOCAL DISCRIMINANT BASIS ALGORITHM |
| Kamyar Hazaveh Hesarmaskan, Kaamran Raahemifar, Ryerson University, Canada |
| SPTM-P6.3: HIGH RESOLUTION TIME-FREQUENCY DISTRIBUTIONS FOR MANEUVERING TARGET DETECTION IN OVER-THE-HORIZON RADARS |
| Yimin Zhang, Moeness Amin, Villanova University, United States; Gordon Frazer, DSTO, Australia |
| SPTM-P6.4: ENTROPY BASED DETECTION ON THE TIME-FREQUENCY PLANE |
| Selin Aviyente, Michigan State University, United States; William J. Williams, University of Michigan, United States |
| SPTM-P6.5: CONSISTENT TIME-FREQUENCY REPRESENTATIONS |
| D. Scott Roberts, Douglas Jones, University of Illinois, United States |
| SPTM-P6.6: TRANSIENT SIGNAL DETECTION USING OVERCOMPLETE WAVELET TRANSFORM AND HIGH-ORDER STATISTICS |
| Cornel Ioana, Andre Quinquis, ENSIETA, France |
| SPTM-P6.7: NON-STATIONARY SIGNAL CLASSIFICATION USING JOINT FREQUENCY ANALYSIS |
| Somsak Sukittanon, Les Atlas, University of Washington, United States; James Pitton, Jack McLaughlin, Applied Physics Laboratory, United States |
| SPTM-P6.8: A SIMPLE SCHEME FOR ENHANCED REASSIGNMENT OF THE SMOOTHED PSEUDO WIGNER-VILLE REPRESENTATION OF NOISY SIGNALS |
| Artur Loza, Nishan Canagarajah, Dave Bull, University of Bristol, United Kingdom |
| SPTM-P6.9: WATERMARKING INFLUENCE ON THE STATIONARITY OF AUDIO SIGNALS |
| Sonia Larbi, Meriem Jaidane, Ecole Nationale d'Ingénieurs de Tunis , Tunisia |
| SPTM-P6.10: AUTO-TERM DETECTION USING TIME-FREQUENCY ARRAY PROCESSING |
| Luke Cirillo, Curtin University of Technology, Australia; Moeness Amin, Villanova University, United States |
| SPTM-P6.11: A GRANULAR APPROACH FOR THE ANALYSIS OF MONOPHONIC AUDIO SIGNALS |
| Lorcan Donagh, IRISA, France; Frédéric Bimbot, IRISA , France; Rémi Gribonval, IRISA / INRIA, France |
| SPTM-P6.12: SPECTRAL CONTENTS OF ASTRONOMICAL UNEQUALLY SPACED TIME-SERIES: CONTRIBUTION OF TIME-FREQUENCY AND TIME-SCALE ANALYSES |
| Sylvie Roques, Carole Thiebaut, Observatoire Midi-Pyrénées, France |
| Top |
| SPTM-P7: Filter Banks |
| SPTM-P7.1: DISCRETE PROBABILITY DENSITY ESTIMATION USING MULTIRATE DSP MODELS |
| Palghat P. Vaidyanathan, Byung-Jun Yoon, California Institute of Technology, United States |
| SPTM-P7.2: ON THE LEAST SQUARES SIGNAL APPROXIMATION MODEL FOR OVERDECIMATED RATIONAL NONUNIFORM FILTER BANKS AND APPLICATIONS |
| Andre Tkacenko, Palghat P. Vaidyanathan, California Institute of Technology, United States |
| SPTM-P7.3: DESIGNING IIR FILTER BANKS COMPOSED OF ALLPASS SECTIONS |
| Chi-Wah Kok, Min Li, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| SPTM-P7.4: EFFICIENT DESIGN OF OVERSAMPLED NPR GDFT FILTER BANKS |
| Matthew Wilbur, Timothy Davidson, McMaster University, Canada; James P. Reilly, McMaster University , Canada |
| SPTM-P7.5: NORM INDUCED QMF BANKS DESIGN USING LMI CONSTRAINTS |
| Min Li, Chi-Wah Kok, Hong Kong University of Science and Technology, Hong Kong SAR of China |
| SPTM-P7.6: NOISE FEEDBACK STRUCTURE FOR NON-ORTHOGONAL TRANSFORM CODING |
| Shyam Raikar, Anamitra Makur, Indian Institute of Science, India |
| SPTM-P7.7: ON EFFICIENT IMPLEMENTATION OF OVERSAMPLED LINEAR PHASE PERFECT RECONSTRUCTION FILTER BANKS |
| Jie Liang, The Johns Hopkins University, United States; Lu Gan, Nanyang Technological University, Singapore; Chengjie Tu, Trac Tran, The Johns Hopkins University, United States; Kai-Kuang Ma, Nanyang Technological University, Singapore |
| SPTM-P7.8: ORTHOGONAL HILBERT TRANSFORM FILTER BANKS AND WAVELETS |
| Rutger van Spaendonck, Rice University, United States; Thierry Blu, Ecole Polytechnique Federale de Lausanne, Switzerland; Richard Baraniuk, Rice University, United States; Martin Vetterli, Ecole Polytechnique Federale de Lausanne, Switzerland |
| SPTM-P7.9: LAPPED HADAMARD TRANSFORMS AND FILTER BANKS |
| See-May Phoong, National Taiwan University, Taiwan; Yuan-Pei Lin, National Chiao Tung University, Taiwan |
| SPTM-P7.10: A DESIGN AND IMPLEMENTATION OF ORTHONORMAL SYMMETRIC WAVELET TRANSFORM USING PRCC FILTER BANKS |
| Abhijin Adiga, Kalpathi R Ramakrishnan, Indian Institute of Science, India; B. S. Adiga, Philips Innovation Campus, India |
| SPTM-P7.11: A NEW PROCEDURE FOR THE OPTIMIZED DESIGN OF CMFBS BASED ON THE FREQUENCY-RESPONSE MASKING TECHNIQUE |
| Miguel Furtado, Paulo Diniz, Sergio Netto, Federal University of Rio de Janeiro, Brazil |
| SPTM-P7.12: LOW-ORDER IIR FILTER BANK DESIGN |
| Hoang Duong Tuan, Tran Thai Son, Toyota Technological Institute, Japan; Truong Q. Nguyen, University of California, San Diego, United States |
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| SPTM-P8: Applications of Detection and Estimation |
| SPTM-P8.1: DETECTION AND IMAGING OF SLOWLY MOVING TARGET OF AIRBORNE SAR BASED ON THE GMCWD-HOUGH TRANSFORM |
| Ling Wang, Ran Tao, Si-Yong Zhou, Beijing Institute of Technology, China |
| SPTM-P8.2: MULTIPLE TARGET DETECTION AND ESTIMATION BY EXPLOITING THE AMPLITUDE MODULATION INDUCED BY ANTENNA SCANNING. PART I: PARAMETER ESTIMATION. |
| Maria Greco, Fulvio Gini, University of Pisa, Italy; Alfonso Farina, Alenia-Marconi Systems, Italy |
| SPTM-P8.3: MULTIPLE TARGET DETECTION AND ESTIMATION BY EXPLOITING THE AMPLITUDE MODULATION INDUCED BY ANTENNA SCANNING. PART II: DETECTION. |
| Fulvio Gini, Federica Bordoni, Maria Greco, University of Pisa, Italy; Alfonso Farina, Alenia-Marconi Systems, Italy |
| SPTM-P8.4: EFFICIENT AUDIO SEGMENTATION ALGORITHMS BASED ON THE BIC |
| Mauro Cettolo, ITC-irst, Italy; Michele Vescovi, Università degli Studi di Trento, Italy |
| SPTM-P8.5: BIPARAMETRIC CLUTTER-MAP CFAR PROCESSOR INDEPENDENT OF ORIGINAL CLUTTER DISTRIBUTION |
| Yan Lin, Jun Tang, Xiutan Wang, Huadong Meng, Tsinghua University, China |
| SPTM-P8.6: PERFORMANCE ANALYSIS OF MEASUREMENT ERROR REGRESSION IN DIRECT-DETECTION LASER RADAR IMAGING |
| Christina Grönwall, Tomas Carlsson, Swedish Defence Research Agency, Sweden; Fredrik Gustafsson, Linköping University, Sweden |
| SPTM-P8.7: A NON-LINE-OF-SIGHT EQUALIZATION SCHEME FOR WIRELESS CELLULAR LOCATION |
| Nima Khajehnouri, Ali Sayed, University of California, Los Angeles, United States |
| SPTM-P8.8: POSITIONING USING TIME-DIFFERENCE OF ARRIVAL MEASUREMENTS |
| Fredrik Gustafsson, Fredrik Gunnarsson, Linköping University, Sweden |
| SPTM-P8.9: ROBUST CLASSIFICATION OF SAR IMAGERY |
| María Magdalena Lucini, Virginie Ruiz, University of Reading, United Kingdom; Alejandro C. Frery, Universidade Federal de Pernambuco, Brazil; Oscar H. Bustos, Universidad Nacional de Córdoba, Argentina |
| SPTM-P8.10: AN EFFICIENT QUASI-MAXIMUM LIKELIHOOD DECODER FOR PSK SIGNALS |
| Zhi-Quan Luo, McMaster University, Canada; Xiaodong Luo, Saltare, Inc., United States; Mikalai Kisialiou, McMaster University, Canada |
| SPTM-P8.11: USING CARRIER FREQUENCY ESTIMATORS DEVELOPED FOR AWGN CHANNEL IN MULTIPATH FADING CHANNEL |
| Chin Keong Ho, Patrick Fung, Institute for Communications Research, Singapore |
| SPTM-P8.12: PARAMETER ESTIMATION OF LINEAR FREQUENCY MODULATED SIGNALS WITH MISSING OBSERVATIONS |
| Ramon Brcich, Abdelhak Zoubir, Curtin University of Technology, Australia |
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| SPTM-P9: Signal Restoration, Reconstruction and Enhancement |
| SPTM-P9.1: TWO-STAGE SIGNAL RECONSTRUCTION UNDER UNKNOWN PARAMETERS AND MISSING DATA |
| Jui-Chung Hung, Ling-Tung College, Taiwan; Bor-Sen Chen, National Tsing-Hua University, Taiwan |
| SPTM-P9.2: STOCHASTIC DECONVOLUTION OVER GROUPS FOR INVERSE PROBLEMS IN IMAGING |
| Birsen Yazici, Drexel University, United States |
| SPTM-P9.3: A PROBABILISTIC APPROACH FOR BLIND SOURCE SEPARATION OF UNDERDETERMINED CONVOLUTIVE MIXTURES |
| Michael Peterson, University of Southern California, United States; Shubha Kadambe, HRL Laboratories, LLC, United States |
| SPTM-P9.4: HALF-QUADRATIC REGULARIZATION FOR MRI IMAGE RESTORATION |
| Rachid Deriche, Pierre Kornprobst, INRIA, France; Mila Nikolova, ENST, France; Michael Ng, University of Hong Kong, Hong Kong SAR of China |
| SPTM-P9.5: AN LMI-BASED DECENTRALIZED H-INFINITY FILTERING FOR INTERCONNECTED LINEAR SYSTEMS |
| Shoulie Xie, Laboratories for Information Technology, Singapore; Lihua Xie, Nanyang Technological University, Singapore; Susanto Rahardja, Laboratories for Information Technology, Singapore |
| SPTM-P9.6: LOCALLY REDUCED-RANK OPTIMAL FILTERING AND ITS APPROXIMATION BY SUCCESSIVE ALTERNATING MINIMIZATION |
| Isao Yamada, Jamal Elbadraoui, Tokyo Institute of Technology, Japan |
| SPTM-P9.7: FAST IN-CYLINDER PRESSURE RECONSTRUCTION FROM STRUCTURE-BORNE SOUND USING THE EM ALGORITHM |
| Ruben Villarino, Johann F. Böhme, Ruhr-Universität Bochum, Germany |
| SPTM-P9.8: BAYESIAN LEARNING FOR SPARSE SIGNAL RECONSTRUCTION |
| David Wipf, Bhaskar Rao, University of California, San Diego, United States |
| SPTM-P9.9: AN ADAPTIVE ENTROPY OPTIMIZATION ALGORITHM FOR BLIND SOURCE SEPARATION |
| Yi-Xiang Wang, McMaster University, Canada |
| SPTM-P9.10: CONSTRAINED EM ESTIMATES FOR HARMONIC SOURCE SEPARATION |
| Pamornpol Jinachitra, Stanford University, United States |
| SPTM-P9.11: NON NEGATIVE SPARSE REPRESENTATION FOR WIENER BASED SOURCE SEPARATION WITH A SINGLE SENSOR |
| Laurent Benaroya, Lorcan Donagh, Frédéric Bimbot, Rémi Gribonval, IRISA, France |
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| SPTM-P10: Adaptive Systems and Signal Processing |
| SPTM-P10.1: ADAPTIVE FORGETTING FACTOR RECURSIVE LEAST SQUARES ADAPTIVE THRESHOLD NONLINEAR ALGORITHM (AFF-RLS-ATNA) FOR IDENTIFICATION OF NONSTATIONARY SYSTEMS |
| Shin'ichi Koike, NEC Corporation, Japan |
| SPTM-P10.2: ADAPTIVE ROBUST KERNEL PCA ALGORITHM |
| Congde Lu, Taiyi Zhang, Ruonan Zhang, Chunmei Zhang, Xi'an Jiaotong University, China |
| SPTM-P10.3: ITERATIVE ALGORITHMS FOR LCMP AUXILIARY-VECTOR FILTER |
| Feng Wu, Chenyang Yang, Beijing University of Aeronautics and Astronautics, China |
| SPTM-P10.4: A METHOD FOR IDENTIFYING NON-GAUSSIAN PARAMETRIC MODEL WITH TIME-VARYING COEFFICIENTS |
| Minfen Shen, Rong Song, Shantou University, China; K.H. Ting, Hong Kong University, Hong Kong SAR of China; Francis H. Y. Chan, University of Hong Kong, Hong Kong SAR of China |
| SPTM-P10.5: HIGHER ORDER EVOLUTIONARY SPECTRAL ANALYSIS |
| Basar Unsal Artan, Aydin Akan, Istanbul University, Turkey; Luis F. Chaparro, University of Pittsburgh, United States |
| SPTM-P10.6: TRACKING ANALYSIS OF NORMALIZED ADAPTIVE ALGORITHMS |
| Muhammad Moinuddin, Azzedine Zerguine, KFUPM, Saudi Arabia |
| SPTM-P10.7: ROBUST DETECTION OF NONSTATIONARY RANDOM SIGNALS BELONGING TO P-POINT UNCERTAINTY CLASSES |
| Gerald Matz, Alfred Raidl, Vienna University of Technology, Austria |
| SPTM-P10.8: STATE-SPACE RLS |
| Mohammad Malik, National University of Sciences and Technology, Pakistan |
| SPTM-P10.9: ROBUSTON METHODS FOR STABLE STATISTICAL SIGNAL PROCESSING: PRINCIPLES AND APPLICATION TO NONSTATIONARY SIGNAL ESTIMATION |
| Franz Hlawatsch, Gerald Matz, Michael Jachan, Vienna University of Technology, Austria |
| SPTM-P10.10: A NEW QR-BASED BLOCK LEAST MEAN SQUARES (QR-BLMS) ALGORITHM FOR ADAPTIVE PARAMETER ESTIMATION |
| Xin-xing Yang, Shing-Chow Chan, University of Hong Kong, Hong Kong SAR of China |
| SPTM-P10.11: TWO APPROACHES FOR THE ESTIMATION OF TIME-VARYING AMPLITUDE MULTICHIRP SIGNALS |
| Hélène Cottereau, Jean-Marie Piasco, Christian Doncarli, Manuel Davy, IRCCyN, France |
| SPTM-P10.12: A MULTI-WINDOW FRACTIONAL EVOLUTIONARY SPECTRAL ANALYSIS |
| Yalcin Cekic, University of Bahcesehir , Turkey; Aydin Akan, Istanbul University, Turkey |
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| SPTM-P11: Non-linear Systems and Signal Processing |
| SPTM-P11.1: BLIND IDENTIFIABILITY OF THIRD-ORDER VOLTERRA NONLINEAR SYSYTEMS |
| Hong-Zhou Tan, Tyseer Aboulnasr, University of Ottawa, Canada |
| SPTM-P11.2: HARMONIC SIGNAL ANALYSIS WITH KALMAN FILTERS USING PERIODIC ORBITS OF NONLINEAR ODES |
| Torbjörn Wigren, Emad Abd-Elrady, Torsten Söderström, Uppsala University, Sweden |
| SPTM-P11.3: COMPUTING THE RECURSIVE POSTERIOR CRAMER-RAO BOUND FOR A NONLINEAR NONSTATIONARY SYSTEM |
| Robert Taylor Jr., Brian Flanagan, John Uber, MITRE Corporation, United States |
| SPTM-P11.4: BREAKING THE FEEDBACK LOOP OF SIGMA-DELTA MODULATORS |
| Nguyen T. Thao, City University of New York, United States |
| SPTM-P11.5: OPTIMISATION OF PARTICLE FILTERS USING SIMULTANEOUS PERTURBATION STOCHASTIC APPROXIMATION |
| Bao Ling Chan, University of Melbourne, Australia; Arnaud Doucet, University of Cambridge, United Kingdom; Vladislav B. Tadic, University of Melbourne, Australia |
| SPTM-P11.6: NONLINEAR EQUALIZATION FOR RICIAN MULTIPATH FADING CHANNEL |
| Qilian Liang, University of Texas, Arlington, United States |
| SPTM-P11.7: DIGITAL BASEBAND PREDISTORTION OF NONLINEAR POWER AMPLIFIERS USING ORTHOGONAL POLYNOMIALS |
| Raviv Raich, Hua Qian, G. Tong Zhou, Georgia Institute of Technology, United States |
| SPTM-P11.8: TRELLIS-BASED SEARCH OF THE MAXIMUM A POSTERIORI SEQUENCE USING PARTICLE FILTERING |
| Tanya Bertozzi, DIGINEXT, France; Didier Le Ruyet, CNAM, France; Gilles Rigal, DIGINEXT, France; Han Vu-Thien, CNAM , France |
| SPTM-P11.9: SEQUENTIAL MONTE CARLO METHOD FOR BLIND EQUALIZATION OF A NONLINEAR SATELLITE COMMUNICATION CHANNEL |
| Stéphane Sénécal, LIS CNRS UMR 5083, France; Laurent Cavazzana, ENSIMAG, France; Pierre-Olivier Amblard, LIS CNRS UMR 5083, France |
| SPTM-P11.10: GAUSSIAN MIXTURE SIGMA-POINT PARTICLE FILTERS FOR SEQUENTIAL PROBABILISTIC INFERENCE IN DYNAMIC STATE-SPACE MODELS |
| Rudolph van der Merwe, Eric Wan, Oregon Health & Science University, United States |
| SPTM-P11.11: PARTICLE FILTERING WITH PAIRWISE MARKOV PROCESSES |
| François Desbouvries, Wojciech Pieczynski, Institut National des Télécommunications, France |
| SPTM-P11.12: TIME ENCODING AND PERFECT RECOVERY OF BANDLIMITED SIGNALS |
| Aurel A. Lazar, Columbia University, United States; Laszlo T. Toth, Budapest Institute of Technology and Economics, Hungary |
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| SPTM-P12: Detection and Estimation |
| SPTM-P12.1: MINIMUM MEAN-SQUARED ERROR COVARIANCE SHAPING |
| Yonina Eldar, Technion - Israel Institute of Technology, Israel |
| SPTM-P12.2: THE KARHUNEN-LOEVE EXPANSION OF IMPROPER COMPLEX RANDOM SIGNALS WITH APPLICATIONS IN DETECTION |
| Peter Schreier, University of Colorado, United States; Louis Scharf, Colorado State University, United States |
| SPTM-P12.3: APPROXIMATE MAXIMUM-LIKELIHOOD ESTIMATION USING SEMIDEFINITE PROGRAMMING |
| Joachim Dahl, Bernard Fleury, Aalborg University, Denmark; Lieven Vandenberghe, University of California, Los Angeles, United States |
| SPTM-P12.4: SAMPLE COVARIANCE MATRIX PARAMETER ESTIMATION: CARRIER FREQUENCY, A CASE STUDY |
| Javier Villares, Gregori Vazquez, Polytechnic University of Catalonia, Spain |
| SPTM-P12.5: ANALYTICAL REPRESENTATION FOR POSITIVE ALPHA-STABLE DENSITIES |
| Ercan Engin Kuruoglu, ISTI-CNR, Italy |
| SPTM-P12.6: INTELLIGENT SENSOR FUSION: A GRAPHICAL MODEL APPROACH |
| José M. F. Moura, Jin Lu, Marius Kleiner, Carnegie Mellon University, United States |
| SPTM-P12.7: ESTIMATION OF LOCALLY STATIONARY COVARIANCE MATRICES FROM DATA |
| Francisco Garcia, Isabel Lourtie, ISR/IST, Portugal |
| SPTM-P12.8: CFAR DETECTION OF CHIRPLETS IN COLOURED GAUSSIAN NOISE |
| Gustavo Lopez-Risueño, Jesus Grajal, Omar Yeste-Ojeda, Universidad Politécnica de Madrid, Spain |
| SPTM-P12.9: LOWER BOUNDS ON THE VARIANCE OF DETERMINISTIC SIGNAL PARAMETER ESTIMATORS USING BAYESIAN INFERENCE |
| Yufei Huang, University of Texas, San Antonio, United States; Jianqiu (Michelle) Zhang, University of New Hampshire, United States |
| SPTM-P12.10: INFORMATION THEORETIC QUANTISER DESIGN FOR DECENTRALISED ESTIMATION OF HIDDEN MARKOV MODELS |
| Subhrakanti Dey, Ferdinando Galati, University of Melbourne, Australia |
| SPTM-P12.11: SUBOPTIMAL ROBUST ESTIMATION USING RANK SCORE FUNCTIONS |
| Christopher Brown, Chalmers University of Technology, Sweden; Ramon Brcich, Curtin University of Technology, Australia; Anisse Taleb, Ericsson AB, Sweden |
| SPTM-P12.12: INDICATORS OF CYCLOSTATIONARITY : PROPOSAL, STATISTICAL EVALUATION AND APPLICATION TO DIAGNOSTICS |
| Amani Raad, Jérome Antoni, Ménad Sidahmed, Université de Technologie de Compiègne, France |
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