Medical Imaging
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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
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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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A Multiresolution Image Restoration Method for Photon Imaging Systems
Authors:
Page (NA) Paper number 1018
Abstract:
Nuclear medicine imaging systems rely on photon detection as the basis of image formation. One of the major sources of error in these imaging systems is Poisson noise. In this paper, we develop a novel multiscale image restoration procedure for photon imaging systems. It consists in separating in the wavelet-domain data points which belong to structures from those due to the noisy background. The latter are replaced by coefficients obtained by the introduction of a multiresolution regularity constraint. The restored image represents therefore a compromise between fidelity to the data and fidelity to the a priori knowledge on the smoothness of the solution. The performance of the method is assessed with simulated data experiments.
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ROI Extraction from Motion Affected MRI Images based on Fuzzy and Active Contour Models
Authors:
Chaminda Weerasinghe,
Lilian Ji,
Hong Yan,
Page (NA) Paper number 1069
Abstract:
A new method for extracting the boundary of the region of interest (ROI) from motion affected magnetic resonance images (MRI) is presented. An image pre-processing stage is included to suppress prominent ghost artifacts and excessive blurring in the background, in order to facilitate the contour extraction algorithm. The pre-processing stage consists of a novel fuzzy model, incorporating a technique of hierarchical view by view image reconstruction. The contour extraction is performed using an intelligent, attractable active contour model (Snakes), which is capable of driving any initial guess in the area of the evolving estimate towards the desired contour, and fitting in to the object without any overrun. The proposed method has been applied to spin echo MRI images affected by rotational motion, producing good results.
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Measurements of Blood Vessel Wall Areas in Black-Blood MR Images Using Global Minimum Snake Algorithm
Authors:
Eugene Lin,
Jenq-Neng Hwang,
Chun Yuan,
Page (NA) Paper number 1806
Abstract:
In this paper, we propose a novel boundary detection approach for three-dimensional shape modeling. Our method is based on finding surfaces of minimal weighted area in a Riemannian metric. In order to take advantage of intensity information of images, we further integrate this intensity information into the boundary detection algorithm. We apply this algorithm to identify the inner and outer boundaries of the blood vessel wall in magnetic resonance images, and assess its accuracy and reproducibility. Our algorithm is reasonably accurate (about 2% difference in comparison with the manual method) and highly reproducible.
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Segmenting Telomeres And Chromosomes In Cells
Authors:
Steven S.S. Poon,
Rabab K Ward,
Peter M Lansdorp,
Page (NA) Paper number 2126
Abstract:
The very end of every chromosome is a region called the telomere. Telomeres are nucleo-protein complexes containing specific DNA repeat sequences whose lengths are strongly believed to give indications to aging and tumor progression. In order to study the role these repeat sequences play in the cell, we developed a fluorescence microscopy imaging system and associated image analysis methods to accurately measure these telomere lengths. To visualize the image of the tiny telomeres, we captured 2 spectrally different images of the same cell. One image contains only telomeres and the other contains only chromosomes. We next apply successful and novel methods to segment the telomere and chromosome images and then to link each chromosome with its telomeres. Our system is so far the only existing system available for this purpose and has already been in use in many research laboratories in Western Europe, North America, and Hong Kong.
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Improved Emission Tomography via Multiscale Sinogram Analysis
Authors:
Klaus E Timmermann,
Robert D Nowak,
Keith J Jones,
Page (NA) Paper number 2144
Abstract:
In this paper, we extend a multiscale Bayesian approach to modeling and estimation of general Poisson processes previously developed in by the first two authors, and apply it to the emission computed tomography (ECT) image reconstruction problem. We develop a practical prior model for the sinogram image, which we use to estimate the underlying sinogram intensity from the raw projection data prior reconstruction. This sinogram estimate is then used in conjunction with the standard filtered-backprojection algorithm to produce an improved image reconstruction. The impact of the new filtering approach on ECT imaging is illustrated with simulated and clinical data.
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Bayesian MAP Restoration of Scintigraphic Images
Authors:
Mai Khuong Nguyen, ETIS (CNRS URA 2235-ENSEA-Universite de Cergy-Pontoise), 6 Avenue du Ponceau, 95014 Cergy-Pontoise Cedex, FRANCE (France)
Hervé Guillemin,
Patrick Duvaut, ETIS (CNRS URA 2235-ENSEA-Universite de Cergy-Pontoise), 6 avenue du Ponceau, 95014 Cergy-Pontoise Cedex, FRANCE (France)
Page (NA) Paper number 2252
Abstract:
We are interested in the problem of restoring scintigraphic images acquired by the gamma detector in nuclear medicine. The aim is to improve the detectability of possible heterogeneous areas in different organs. We propose to solve the problem in the Bayesian framework with Maximum A Posteriori (MAP) principle. The prior information was modeled by a Markov Random Field (MRF). The optimization is based on two kinds of methods: the stochastic algorithm of simulated annealing with a Gibbs sampler, and the deterministic algorithm of Graduated Non Convexity (GNC). We compared the results to the images restored by the Metz filter, more classical in this field. We applied these methods to the restoration of cold and warm nodules in the thyroid gland. We noticed the superiority of the proposed methods in terms of contrast around the nodules and uniformity in the images.
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Active Contours: An Overview with Applications to Motion Artifact Cancellation in MRI
Authors:
Diana L Guidry, CVIP Lab, University of Louisville, KY, USA (USA)
Aly A. Farag,
Page (NA) Paper number 2416
Abstract:
Motion can be estimated by detecting the edges of a moving object using Active Contours, and registering them together to obtain the motion model parameters. This idea can be applied to patient motion during the acquisition of an MRI to eliminate motion artifacts in the image. The data obtained during the MRI acquistion, the k-space, can be divided into several subbands such that each subband is acquired in a small fraction of the full imaging time. These subbands create invariant tissue feature maps called subband images. Using Active Contours, the relative motion is analyzed across the different subband images to determine the motion parameters. Using these motion parameters it is possible to correct the subbands, thus correcting the k-space. This has the potential to yield clear, noise-free MR images
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Modified Fuzzy C-Mean in Medical Image Segmentation
Authors:
Nevin A. Mohamed, CVIP Lab, E.E. dept, University of Louisville, USA (USA)
Mohamed N. Ahmed, CVIP Lab, E.E. dept, University of Louisville, USA (USA)
Aly A. Farag, CVIP Lab, E.E. dept, University of Louisville, USA (USA)
Page (NA) Paper number 2422
Abstract:
This paper describes the application of fuzzy set theory in medical imaging, namely the segmentation of brain images. We propose a fully automatic technique to obtain image clusters. A fuzzy c-mean classification algorithm is used to provide a fuzzy partition of the image. In this paper we will be introducing a new method of clustering using the FCM. Our new method is inspired from the Markov Random Field (MRF). We applied the new method on a noisy CT scan and on a single channel MR scan. We recommend using a methodology of over segmentation to the textured MR scan and a user guided interface to obtain the final clusters. One of the application of this technique is TBI recovery prediction in which it is important to consider the partial volume. It is shown that after a number of iterations the system stabilizes with the membership value of the region contours reflecting the partial volume value. The final stage of the process is devoted to decision making or the defuzzification process.