Blind Multiuser Communications
HomeFull List of Titles
1: Speech Processing
CELP CodingLarge Vocabulary RecognitionSpeech Analysis and EnhancementAcoustic Modeling IASR Systems and ApplicationsTopics in Speech CodingSpeech AnalysisLow Bit Rate Speech Coding IRobust Speech Recognition in Noisy EnvironmentsSpeaker RecognitionAcoustic Modeling IISpeech Production and SynthesisFeature ExtractionRobust Speech Recognition and AdaptationLow Bit Rate Speech Coding IISpeech UnderstandingLanguage Modeling I2: Speech Processing, Audio and Electroacoustics, and Neural Networks
Acoustic Modeling IIILexical Issues/SearchSpeech Understanding and SystemsSpeech Analysis and QuantizationUtterance Verification/Acoustic ModelingLanguage Modeling IIAdaptation /NormalizationSpeech EnhancementTopics in Speaker and Language RecognitionEcho Cancellation and Noise ControlCodingAuditory Modeling, Hearing Aids and Applications of Signal Processing to Audio and AcousticsSpatial AudioMusic ApplicationsApplication - Pattern Recognition & Speech ProcessingTheory & Neural ArchitectureSignal SeparationApplication - Image & Nonlinear Signal Processing3: Signal Processing Theory & Methods I
Filter Design and StructuresDetectionWaveletsAdaptive Filtering: Applications and ImplementationNonlinear Signals and SystemsTime/Frequency and Time/Scale AnalysisSignal Modeling and RepresentationFilterbank and Wavelet ApplicationsSource and Signal SeparationFilterbanksEmerging Applications and Fast AlgorithmsFrequency and Phase EstimationSpectral Analysis and Higher Order StatisticsSignal ReconstructionAdaptive Filter AnalysisTransforms and Statistical EstimationMarkov and Bayesian Estimation and Classification4: Signal Processing Theory & Methods II, Design and Implementation of Signal Processing Systems, Special Sessions, and Industry Technology Tracks
System Identification, Equalization, and Noise SuppressionParameter EstimationAdaptive Filters: Algorithms and PerformanceDSP Development ToolsVLSI Building BlocksDSP ArchitecturesDSP System DesignEducationRecent Advances in Sampling Theory and ApplicationsSteganography: Information Embedding, Digital Watermarking, and Data HidingSpeech Under StressPhysics-Based Signal ProcessingDSP Chips, Architectures and ImplementationsDSP Tools and Rapid PrototypingCommunication TechnologiesImage and Video TechnologiesAutomotive Applications / Industrial Signal ProcessingSpeech and Audio TechnologiesDefense and Security ApplicationsBiomedical ApplicationsVoice and Media ProcessingAdaptive Interference Cancellation5: Communications, Sensor Array and Multichannel
Source Coding and CompressionCompression and ModulationChannel Estimation and EqualizationBlind Multiuser CommunicationsSignal Processing for Communications ICDMA and Space-Time ProcessingTime-Varying Channels and Self-Recovering ReceiversSignal Processing for Communications IIBlind CDMA and Multi-Channel EqualizationMulticarrier CommunicationsDetection, Classification, Localization, and TrackingRadar and Sonar Signal ProcessingArray Processing: Direction FindingArray Processing Applications IBlind Identification, Separation, and EqualizationAntenna Arrays for CommunicationsArray Processing Applications II6: Multimedia Signal Processing, Image and Multidimensional Signal Processing, Digital Signal Processing Education
Multimedia Analysis and RetrievalAudio and Video Processing for Multimedia ApplicationsAdvanced Techniques in MultimediaVideo Compression and ProcessingImage CodingTransform TechniquesRestoration and EstimationImage AnalysisObject Identification and TrackingMotion EstimationMedical ImagingImage and Multidimensional Signal Processing Applications ISegmentationImage and Multidimensional Signal Processing Applications IIFacial Recognition and AnalysisDigital Signal Processing EducationAuthor Index
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Fixed Point Algorithm for Bit Rate Optimal Equalization in Multicarrier Systems
Authors:
Mile Milisavljević,
Erik I Verriest,
Page (NA) Paper number 2341
Abstract:
In this paper we present a fixed point algorithm for bit rate optimal time domain equalization in multicarrier systems. The algorithm outperforms standard MMSE equalizers in capacity measure. Moreover, it adaptively estimates the optimal signal delay which was an exhaustive search problem in MMSE equalizers. We briefly discuss the convergence properties and demonstrate the performance of the algorithm on a twisted pair copper wire loop with additive non-white noise.
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A Blind Projection Receiver for Coded CDMA Systems
Authors:
Shan Mo,
Christian Schlegel,
V. John Mathews,
Page (NA) Paper number 2277
Abstract:
This paper presents a blind adaptive CDMA receiver that requires no knowledge of the spreading codes, the delays, and the energy of the received signals associated with the interfering users. Our receiver is based on linear interference cancellation and adaptive interference signal subspace tracking. It has error control coding embedded in the detector structure and employs ``branch processing'' to detect the bit stream. Simulation results demonstrating that the receiver suffers negligible performance loss over systems with complete knowledge of the interfering users are presented in the paper.
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Rank Order Diversity Detectors for Wireless Communications
Authors:
Alexander Flaig,
Gonzalo R Arce,
Page (NA) Paper number 1755
Abstract:
A novel class of robust detectors, the rank order diversity (ROD) detectors, is proposed. The ROD detectors exploit the diversity inherent in any repetition code by sorting the sampled channel output, weighting each of the sorted samples according to their rank, and summing the weighted order statistics to form the test statistic. The ROD detectors subsume the globally optimal detectors for the short-tailed uniform and the normal distributions, as well as the locally optimal detector for the heavy-tailed double-exponential distribution, suggesting a high efficiency of the ROD detectors over a vast range of possible noises statistics. It is shown that for large sample sizes and under mild conditions on the noise statistics, the ROD detector achieves a probability of error less or equal than that of the linear detector with equality only for the normal distribution. The performance of the ROD detectors is illustrated in a DS-CDMA network.
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Least-Squares CMA with Decorrelation for Fast Blind Multiuser Signal Separation
Authors:
Francisco R.P. Cavalcanti,
Joao M.T. Romano,
Andre L. Brandão,
Page (NA) Paper number 1080
Abstract:
A blind algorithm with implicit signal selectivity capability is proposed. The algorithm is an evolution of the original multiuser constant modulus algorithm. The new algorithm features a least-squares type updating rule for fast convergence rate and an adaptive control of the weight of the decorrelation term which improves the steady-state error variance. The expected improvements of the proposed algorithm are verified through simulations with smart antennas in a spatial-division multiple access system.
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Blind Channel Estimation for Multiuser CDMA Systems with Long Spreading Codes
Authors:
Zhengyuan (Daniel) Xu,
Michail K Tsatsanis,
Page (NA) Paper number 1593
Abstract:
In this paper, correlation-matching techniques are employed to estimate multipath channel parameters for a multiuser CDMA system with long spreading codes. For given code sequences, the output correlation matrix (parametrized by the unknown channel coefficients) is compared with its instantaneous approximation. By minimizing the Frobenious norm of the resulting error matrix the channel parameters can be estimated up to a scalar ambiguity. Under the assumption of i.i.d. code sequences, identifiability for each channel is guaranteed and the asymptotic convergence of the proposed algorithm is established. Simulation results confirm our claims. Comparisons with other methods are also provided.
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Channel Estimation for DS-CDMA with Aperiodic Spreading Codes
Authors:
Page (NA) Paper number 2129
Abstract:
For high performance CDMA communications, multiuser detection is often required to suppress the multiple access interference (MAI). Most multiuser detectors rely on accurate channel information to recover the multiuser digital signals. This paper studies the blind channel estimation problem for DS-CDMA systems using aperiodic codes. The Maximum Likelihood estimator is formulated for channel estimation. We first convert the multiuser parameter estimation problem into a set of single user optimization problems via alternating optimization, and then determine the channel parameters for each user using an iterative algorithm derived. It is shown by computer simulation that this iterative algorithm can reach global maxima almost always under medium SNR values.
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Decision Feedback Blind Symbol Estimation by Adaptive Least Squares Smoothing
Authors:
Page (NA) Paper number 2168
Abstract:
A decision feedback blind symbol estimation algorithm based on the least squares smoothing approach is proposed for single-input multiple-output finite impulse response systems. With the finite alphabet property, the input signal is estimated based on the past detected symbols and the least squares smoothing error of the observation. Implemented both time and order recursively, the proposed algorithm is adaptive to channel variation and has low complexity both in computation and in VLSI implementation. Based on a deterministic model, this algorithm has the finite sample convergence property, i.e., the input signal can be perfectly detected with a small set of data samples in the absence of noise.
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Application Of Blind Second Order Statistics MIMO Identification Methods To The Blind CDMA Forward Link Channel Estimation
Authors:
Philippe Loubaton, Laboratoire Systeme de Communication, Universite de Marne la Vallee, 5 Bd Descartes, Champs sur Marne, 77454 Marne la Vallee Cedex, France (France)
Eric Moulines, ENST, Dept. Signal, 46 rue Barrault, 75634 Paris Cedex 13, France (France)
Page (NA) Paper number 1632
Abstract:
Blind channel estimation for periodic sequence DS-CDMA systems can be cast into the framework of "structured" blind estimation of multi-input / multi-output (MIMO) FIR systems, where the structure is imoosed by the user's signature. A possible approach to tackle this problem consists in looking for a structured solution to oneof the so-called blind MIMO-FIR system identification techniques proposed recently. This is the approach undertaken among others by Wang and Poor, who proposed to use the subspace method. In this contribution, we follow this approach to consider the particular blind forward link channel estimation problem, and improve quite significantly the results of Wang and Poor.