Image and Multidimensional Signal Processing Applications II
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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Modelling Magnetic Material Images with Simultaneous Autoregressions
Authors:
Changjing Shang,
D. M Titterington,
Page (NA) Paper number 1178
Abstract:
This paper presents a novel application of Simultaneous Autoregressive models to the synthesis of magnetic material images. The effect of using either symmetric or non-symmetric neighbour sets upon the visual and statistical properties of the resulting synthesised images are investigated. The use of a neighbour set whose shape corresponds to the orientations and coarseness of the texture allows the generation of synthetic images of good quality. Also, the size of such a neighbour set is usually smaller than that of the symmetric set required to reach similar modelling accuracy, thereby minimising the computational effort.
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Multi-Hypothesis, Volumetric Reconstruction of 3-D Objects from Multiple Calibrated Camera Views
Authors:
Peter Eisert,
Eckehard Steinbach,
Bernd Girod,
Page (NA) Paper number 1232
Abstract:
In this paper we present a volumetric method for the 3-D reconstruction of real world objects from multiple calibrated camera views. The representation of the objects is fully volume-based and no explicit surface description is needed. The approach is based on multi-hypothesis tests of the voxel model back-projected into the image planes. All camera views are incorporated in the reconstruction process simultaneously and no explicit data fusion is needed. In a first step each voxel of the viewing volume is filled with several color hypotheses originating from different camera views. This leads to an overcomplete representation of the 3-D object and each voxel typically contains multiple hypotheses. In a second step only those hypotheses remain in the voxels which are consistent with all camera views where the voxel is visible. Voxels without a valid hypothesis are considered to be transparent. The methodology of our approach combines the advantages of silhouette-based and image feature-based methods. Experimental results on real and synthetic image data show the excellent visual quality of the voxel-based 3-D reconstruction.
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Infrared Sensor Modeling for Realistic Thermal Image Synthesis
Authors:
Christelle Garnier,
René Collorec,
Jihed Flifla,
Christophe Mouclier,
Frank Rousée,
Page (NA) Paper number 1253
Abstract:
To generate realistic synthetic IR images, image acquisition by IR sensors must be reproduced. In this paper, we propose an IR sensor model based on physical laws governing effects involved in the IR imagery formation process. Our approach consists in a combination and an extension of current camera models used in visible and infrared image synthesis, and thus merges ray tracing and post-processing techniques. Our model represents the geometric and radiometric relationship between the points in the 3D observed scene and the corresponding pixels of the IR sensor output image. It offers the capability of simulating each IR sensor component in accordance with any given system technology and to any desired degree of precision. Moreover, it can also account for variations in many physical quantities through spatial, spectral, and temporal dimensions.
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New Hardware-Efficient Algorithm and Architecture for the Computation of 2-D DCT on a Linear Systolic Array
Authors:
Shen-Fu Hsiao, Inst. Comp. Eng., NSYSU, Taiwan (Taiwan)
Wei-Ren Shiue, Inst. Comp. Eng., NSYSU, Taiwan (Taiwan)
Page (NA) Paper number 1670
Abstract:
A new recursive algorithm for fast computation of two-dimensional discrete cosine transforms (2-D DCT) is derived by converting the 2-D data matrices into 1-D vectors and then using different partition methods for the time and frequency indices. The algorithm first computes the 2-D complex DCT (2-D CCT) and then produces two 2-D DCT outputs simultaneously through a post-addition step. The decomposed form of the 2-D recursive algorithm looks very like a radix-4 FFT algorithm and is in particular suitable for VLSI implementation since the common entries in each row of the butterfly-like matrix are factored out in order to reduce the number of multipliers. A new linear systolic architecture is presented which leads to a hardware-efficient architectural design requiring only logN multipliers plus 3logN adders/subtractors for the computation of two NxN DCTs.
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Estimating Crowd Density With Minkowski Fractal Dimension
Authors:
Aparecido Nilceu Marana, UNESP - Rio Claro - SP - Brazil (Brazil)
Luciano da Fontoura Costa, USP - São Carlos - SP - Brazil (Brazil)
Roberto de Alencar Lotufo, UNICAMP - Campinas - SP - Brazil (Brazil)
Sergio A. Velastin, KCL - University of London - London - UK (U.K.)
Page (NA) Paper number 1678
Abstract:
The estimation of the number of people in an area under surveillance is very important for the problem of crowd monitoring. When an area reaches an occupancy level greater than the designed one, people's safety can be in danger. This paper describes a new technique for crowd density estimation based on Minkowski fractal dimension. Fractal dimension has been widely used to characterize data texture in a large number of physical and biological sciences. The results of our experiments show that fractal dimension can also be used to characterize levels of people congestion in images of crowds. The proposed technique is compared with a statistical and a spectral technique, in a test study of nearly 300 images of a specific area of the Liverpool Street Railway Station, London, UK. Results obtained in this test study are presented.
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Data Efficient Implementation of UWBWA SAR Algorithms
Authors:
Richard Rau,
James H McClellan,
Page (NA) Paper number 1833
Abstract:
It is shown that the particular form of the frequency support of raw data and focused imagery obtained from an ultra-wideband, wide beamwidth synthetic aperture radar system can be exploited in non-separable sampling schemes to reduce the overall amount of raw data samples and image pixels that need to be stored and computed. Furthermore, it is demonstrated that the constant integration angle backprojection (CIAB) image former implicitly applies a fan filter that interpolates raw data sampled on a quincunx grid back onto the underlying rectangular grid. This subtle property of the CIAB has not been exploited so far. It leads to higher quality images with less computational complexity.
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Supervised Classification for Synthetic Aperture Radar Image
Authors:
Xavier Dupuis,
Pierre Mathieu,
Michel Barlaud,
Page (NA) Paper number 2358
Abstract:
This paper deals with the supervised classification of synthetic aperture radar (SAR) images. Our approach is based on two criteria, which explicitly take into account the intensity of the SAR image and the neighborhood classes, similary to the Pots model, but weighted by a discontinuity map. The high level of noise involves numerous classification errors, then we classify a restored image filtered with a well-adapted algorithm to clustering. Moreover, we isolate the texture of SAR images in order to help the classification. Finally, we present results on real SAR images.
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Minimum Component Eigen-vector Based Classification Technique with Application to TM Images
Authors:
Guohui He,
Mita D Desai,
Xiaoping Zhang,
Page (NA) Paper number 2419
Abstract:
In this paper, we propose a new classification technique based on the Minimum Component Analysis (MCA) instead of the traditional Principal Components Analysis (PCA). Most existing classification techniques based on PCA represent a class by its principal component. However, the principal component is not always the best choice since there is a high possibility for classes to overlap with each other in the principal component direction. The new minimum component eigen-vector based classification technique overcomes this disadvantage by representing a class with its minimum component. In addition, a minimum likelihood decision rule is employed instead of maximum likelihood decision rule. Good performance of our technique is verified by experimental results on Kennedy Space Center (KSC) TM images.