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1.

図書

図書
Michael O. Kolawole
出版情報: New York : M. Dekker, c2002  xiii, 263 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 16
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Series Introduction / K. J. Ray Liu
Preface
Basic Principles of Satellite Communications / 1.:
The Origin of Satellites / 1.1:
Communications Via Satellite / 1.2:
Characteristic Features of Communication Satellites / 1.3:
Message Security / 1.4:
Summary / 1.5:
Satellites / 2.:
Overview / 2.1:
Satellite Orbits and Orbital Errors / 2.2:
Coverage Area and Satellite Networks / 2.3:
Geometric Distances / 2.4:
Swath Width, Communication Time, and Satellite Visibility / 2.5:
Systems Engineering: Design Procedure / 2.6:
Antennas / 2.7:
Satellite Power Systems / 2.8:
Onboard Processing and Switching Systems / 2.9:
Earth Stations / 2.10:
Basic Principle of Earth Stations / 3.1:
Modulation / 3.2:
Modem and Codec / 3.3:
Earth Station Design Considerations / 3.4:
Terrestrial Links from and to Earth Stations / 3.5:
Satellite Links / 3.6:
Link Equations / 4.1:
Carrier-to-Noise Plus Interference Ratio / 4.2:
Communication Networks and Systems / 4.3:
Principles of Multiple Access / 5.1:
Capacity Comparison of Multiple-Access Methods / 5.2:
Error Detection and Correction Coding Schemes / 5.3:
Channel Coding / 6.1:
Forward Error Correction Coding Techniques / 6.2:
Regulatory Agencies and Procedures / 6.3:
International Regulations / 7.1:
National and Regional Regulations / 7.2:
Mobile Satellite System Services / 7.3:
Mobile Satellite Systems Architecture / 8.1:
The Internet and Satellites / 8.3:
Notations / 8.4:
Glossary of Terms / Appendix B:
Index
Series Introduction / K. J. Ray Liu
Preface
Basic Principles of Satellite Communications / 1.:
2.

図書

図書
Jie Chen, Ut-Va Koc, K.J. Ray Liu
出版情報: New York : Marcel Dekker, c2002  xv, 475 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 12
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Series Introduction
Preface
Background and Standards / Part I:
Video Communications / 1:
Importance of Video Compression / 1.1:
Advances in Video Coding / 1.2:
Waveform-Based Video Coding / 1.2.1:
Model-Based Video Coding / 1.2.2:
Motion-Compensated DCT Video Coding / 2:
Basic Principles of Motion Compensated Transform Coding / 2.1:
Picture Formats / 2.2:
Color Spaces and Sample Positions / 2.3:
Layers in Video Stream / 2.4:
Intraframe Block-Based Coding / 2.5:
Spatial Decorrelation Through DCT / 2.5.1:
Exploitation of Visual Insensitivity Through Quantization / 2.5.2:
Lossless Compression Through Entropy Codin / 2.5.3:
Interframe Block-Based Coding / 2.6:
Block-Based Motion Estimation Algorithms / 2.6.1:
Block-Based Motion Compensation / 2.6.2:
Coding DCT Coefficients in Interframes / 2.6.3:
Motion-Compensated DCT Video Encoder and Decoder / 2.7:
Fully DCT-Based Motion-Compensated Video Coder Structure / 2.8:
Video Coding Standards / 3:
Overview of Video Coding Standards / 3.1:
JPEG Standards / 3.1.1:
ITU H series / 3.1.2:
MPEG Standards / 3.1.3:
H.261 / 3.2:
H.263 / 3.2.2:
MPEG-1 / 3.2.3:
MPEG-2 (H.262) and HDTV / 3.2.4:
MPEG-4 / 3.2.5:
Algorithms / Part II:
DCT-Based Motion Estimation / 4:
DCT Pseudo-Phase Techniques / 4.1:
2-D Translational Motion Model / 4.2:
The DXT-ME Algorithm / 4.3:
Unitary Property of the System Matrix / 4.4:
Motion Estimation in Uniformly Bright Background / 4.5:
Computational Issues and Complexity / 4.6:
Simulation for Application to Image Registration / 4.7:
DCT-Based Motion Estimation Approach / 4.8:
Preprocessing / 4.8.1:
Adaptive Overlapping Approach / 4.8.2:
Simulation Results / 4.9:
Rough Count of Computations / 4.10:
Interpolation-Free Subpixel Motion Estimation / 5:
Pseudo Phases at Subpixel Level / 5.1:
One-Dimensional Signal Model / 5.1.1:
Two-Dimensional Image Model / 5.1.2:
Subpel Sinusoidal Orthogonality Principles / 5.2:
DCT-Based Subpixel Motion Estimation / 5.3:
DCT-Based Half-Pel Motion Estimation Algorithm (HDXT-ME) / 5.3.1:
DCT-Based Quarter-Pel Motion Estimation Algorithm (QDXT-ME and Q4DXT-ME) / 5.3.2:
Simulation Result / 5.4:
DCT-Based Motion Compensation / 6:
Integer-Pel DCT-Based Motion Compensation / 6.1:
Subpixel DCT-Based Motion Compensation / 6.2:
Interpolation Filter / 6.2.1:
Bilinear Interpolated Subpixel Motion Compensation / 6.2.2:
Cubic Interpolated Subpixel Motion Compensation / 6.2.3:
Interpolation By DCT/DST / 6.2.4:
DCT-I Interpolated Sequence / 6.3.1:
DCT-II of DCT-I Interpolated Half-Pel Motion Compensated Block / 6.3.2:
Matching Encoders with Decoders / 6.4:
Matching SE with SD / 6.4.1:
Matching TE with SD / 6.4.2:
Matching SE with TD / 6.4.3:
MPEG-4 and Content-Based Video Coding / 7:
Overview of MPEG-4 Standard / 7.1:
MPEG-4 Architecture / 7.1.1:
MPEG-4 Video Coding / 7.2:
Overview of MPEG-4 Video Coding / 7.2.1:
Arbitrarily Shaped Region Texture Coding / 7.2.2:
Motion Estimation and Compensation / 7.2.3:
Arbitrary Shape Coding / 7.2.4:
Advanced Coding Techniques / 7.2.5:
Deliver Video Bitstream over Networks / 7.3:
Rate Control / 7.3.1:
Error Resilience / 7.3.2:
Universal Accessibility / 7.3.3:
DCT-Domain Content-Based Video Coding / 7.4:
Transform Domain Motion Estimation/Compensation / 7.4.1:
Architectures and Implementation / 7.4.2:
Dual Generation of DCT and DST / 8:
Discrete Sinusoidal Transforms / 8.1:
Evolution of the Algorithms and Architectures / 8.1.1:
What Is Unique in Our Design? / 8.1.2:
One-Dimensional DCT Lattice Structures / 8.2:
Inverse Transforms / 8.2.1:
Multiplier-Reduction of the Lattice Structure / 8.2.3:
Comparisons of Architectures / 8.2.4:
Two-Dimensional DCT Lattice Structures / 8.3:
Dual Generation of 2-D DCT and DSCT / 8.3.1:
Architectures of Frame-Recursive Lattice 2D-DCT and 2-D DSCT / 8.3.3:
Comparisons / 8.3.4:
Applications to the HDTV Systems / 8.3.5:
Efficient Design of Video Coding Engine / 9:
Overview of Embedded Video Coding Engine / 9.1:
Overview of an Embedded Video Coder Design / 9.1.1:
Efficient Architecture of a Video Coding Engine / 9.2:
Why Should We Use CORDIC-Based Design? / 9.2.1:
2D-DXT/IDXT-II Programmable Module / 9.2.2:
Type Transformation Module / 9.2.3:
Pseudo-Phase Computation / 9.2.4:
Peak Searching / 9.2.5:
Half-Pel Motion Estimator Design / 9.2.6:
VLSI Design of Video Coding Engine / 9.2.7:
Design Criteria / 9.3.1:
VLSI Implementation / 9.3.2:
Low-Power and High-Performance Design / 10:
Low-Power Design / 10.1:
Low-Power Design Approaches / 10.1.1:
Algorithm/Architecture-Based Low-Power/High-Performance Approaches / 10.1.2:
Look-Ahead and Multirate Computing Concepts / 10.1.3:
Low-Power and High-Performance Architectures / 10.2:
Two-Stage Look-Ahead Type-II DCT/IDCT Coder / 10.2.1:
Pipelining Design for DCT Coefficients Conversion / 10.2.2:
Multirate Design for Pseudo-Phase Computation / 10.2.3:
Pipelining Design for Peak-Search / 10.2.4:
Two-Stage Look-Ahead Half-Pel Motion Estimator / 10.2.5:
Simulation Results and Hardware Cost / 10.3:
Applications / Part IV:
End-to-End Video over IP Delivery / 11:
Overview of Our Design / 11.1:
A Sonet Network Adapter Design / 11.1.1:
Joint Source-Channel Multistream Coding / 11.1.2:
The Brief Overview of Sonet / 11.2:
Packet over Sonet or Directly over Fiber / 11.2.2:
Design and Implement a Sonet Network Adapter / 11.2.3:
The Performance of Sonet Device / 11.2.4:
Multistream Video Coding / 11.3:
What is Unique in the Multistream Video Coding? / 11.3.1:
The Design of Multistream Video Coding / 11.3.2:
Bibliography / 11.4:
Index
Series Introduction
Preface
Background and Standards / Part I:
3.

図書

図書
edited by Yu Hen Hu
出版情報: New York : Marcel Dekker, c2002  x, 430 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 13
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Series Introduction
Preface
Contributors
Programmable Digital Signal Processors: A Survey / Surin Kittitornkun ; Yu Hen Hu1.:
VLIW Processor Architectures and Algorithm Mappings for DSP Applications / Ravi A. Managuli ; Yongmin Kim2.:
Multimedia Instructions in Microprocessors for Native Signal Processing / Ruby B. Lee ; A. Murat Fiskiran3.:
Reconfigurable Computing and Digital Signal Processing: Past, Present, and Future / Russell Tessier ; Wayne Burleson4.:
Parallel Architectures for Programmable Video Signal Processing / Zhao Wu ; Wayne Wolf5.:
OASIS: An Optimized Code Generation Approach for Complex Instruction Set PDSPs / Jim K. H. Yu6.:
Digital Signal Processing on MMX Technology / Yen-Kuang Chen ; Nicholas Yu ; Birju Shah7.:
Hardware/Software Cosynthesis of DSP Systems / Shuvra S. Bhattacharyya8.:
Data Transfer and Storage Architecture Issues and Exploration in Multimedia Processors / Francky Catthoor ; Koen Danckaert ; Chidamber Kulkarni ; Thierry Omnes9.:
Index
Series Introduction
Preface
Contributors
4.

図書

図書
edited by Hong Yan
出版情報: New York : Marcel Dekker, c2002  xvii, 646 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 15
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Series Introduction / K. J. Ray Liu
Preface
Contributors
Image Reconstruction and Restoration / Part I.:
Introduction to Image Reconstruction / Zhi-Pei Liang ; Jim Ji ; E. Mark Haacke1.:
Wavelet-Based Multiresolution Local Tomography / F. Rashid-Farrokhi ; K. J. R. Liu2.:
The Point Spread Function of Convolution Regridding Reconstruction / Gordon E. Sarty3.:
Mapping Motion and Strain with MRI / Yudong Zhu4.:
Rotational Motion Artifact Correction Based on Fuzzy Projection onto Convex Sets / Chaminda Weerasinghe ; Lilian Ji ; Hong Yan5.:
Tagged MR Cardiac Imaging / Nikolaos V. Tsekos ; Amir A. Amini6.:
Functional MR Image Visualization and Signal Processing Methods / Alex R. Wade ; Brian A. Wandell ; Thomas P. Burg7.:
Image Segmentation and Analysis / Part II.:
Multiscale Segmentation of Volumetric MR Brain Images / Wiro J. Niessen ; Koen L. Vincken ; Joachim Weickert ; Max A. Viergever8.:
A Precise Segmentation of the Cerebral Cortex from 3-D MRI Using a Cellular Model and Homotopic Deformations / Yann Cointepas ; Isabelle Bloch ; Line Garnero9.:
Feature Space Analysis of MRI / Hamid Soltanian-Zadeh10.:
Geometric Approaches for Segmentation and Signal Detection in Functional MRI Analysis / Guillermo Sapiro11.:
MR Image Segmentation and Analysis Based on Neural Networks / Javad Alirezaie ; M. E. Jernigan12.:
Stochastic Model Based Image Analysis / Yue Wang ; Tulay Adalt13.:
Functional MR Image Analysis / Shang-Hong Lai ; Ming Fang14.:
Tagged MR Image Analysis / Yasheng Chen15.:
Spectroscopic Signal Processing / Part III.:
Time-Domain Spectroscopic Quantitation / Leentje Vanhamme ; Sabine Van Huffel ; Paul Van Hecke16.:
Multidimensional NMR Spectroscopic Signal Processing / Guang Zhu ; Yingbo Hua17.:
Advanced Methods in Spectroscopic Imaging / Keith A. Wear18.:
Characterization of Brain Tissue from MR Spectra for Tumor Discrimination / Paulo J. G. Lisboa ; Wael El-Deredy ; Y. Y. Barbara Lee ; Yangxin Huang ; Angelica R. Corona Hernandez ; Peter Harris ; Carles Arus19.:
Wavelet Packets Algorithm for Metabolite Quantification in Magnetic Resonance Spectroscopy and Chemical Shift Imaging / Luca T. Mainardi ; Sergio Cerutti ; Daniela Origgi ; Giuseppe Scotti20.:
Cramer-Rao Bound Analysis of Spectroscopic Signal Processing Methods / Sophie Cavassila ; Dirk van Ormondt ; Danielle Graveron-Demilly21.:
Index
Series Introduction / K. J. Ray Liu
Preface
Contributors
5.

図書

図書
King N. Ngan, Chi W. Yap, Keng T. Tan
出版情報: New York : Marcel Dekker, c2001  xx, 532 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 10
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6.

図書

図書
edited by Kiyoharu Aizawa, Katsuhiko Sakaue, Yashuhito Suenaga
出版情報: New York : Marcel Dekker, c2004  x, 282 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 23
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Series Introduction
Preface
Passive Range Sensing Techniques: Depth from Images
Optimization Approaches in Computer Vision and Image Processing Katsuhiko / 1.:
Motion and Shape from Sequences of Images under Feature Correspondences / Naokazu Yokoya
Compression and Representation of 3-D Images
Omnidirectional Sensing and Its Applications / Takeshi Shakunaga
Computational Sensors: Vision VLSI
Processing of Face Images and Its Applications / Masayuki Kanbara
Document Analysis and Recognition
Recent Progress in Medical Image Processing-Virtualized Human Body and Computer-Aided Surgery
Image Processing for Intelligent Transport Systems
Optimization Approaches in Computer Vision and Image Processing / Katsuhiko Sakaue ; Akira Amano2.:
Motion and Shape from Sequences of Images Under Feature Correspondences / Jun Fujiki3.:
Processing and Recognition of Face Images and Its Applications / Takeshi Naemura ; Masahide Kaneko ; Hiroshi Harashima ; Yasushi Yagi ; Kiyoharu Aizawa ; Osamu Hasegawa4.:
Recent Progress in Medical Image Processing / Toyohide Watanabe ; Junichiro Toriwaki ; Kensaku Mori ; Jun-ichi Hasegawa8.:
Index / Shinji Ozawa10.:
Series Introduction
Preface
Passive Range Sensing Techniques: Depth from Images
7.

図書

図書
Mauro Barni, Franco Bartolini
出版情報: New York : Marcel Dekker, c2004  xv, 466 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 21
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Series introduction
Preface
Introduction / 1:
Elements of a watermarking system / 1.1:
Information coding / 1.1.1:
Embedding / 1.1.2:
Concealment / 1.1.3:
Watermark impairments / 1.1.4:
Recovery of the hidden information / 1.1.5:
Protocol considerations / 1.2:
Capacity of watermarking techniques / 1.2.1:
Multiple embedding / 1.2.2:
Robustness / 1.2.3:
Blind vs. non-blind recovery / 1.2.4:
Private vs. public watermarking / 1.2.5:
Readable vs. detectable watermarks / 1.2.6:
Invertibility and quasi-invertibility / 1.2.7:
Reversibility / 1.2.8:
Asymmetric watermarking / 1.2.9:
Audio vs image vs video assets / 1.3:
Further reading / 1.4:
Applications / 2:
IPR protection / 2.1:
Demonstration of rightful ownership / 2.1.1:
Fingerprinting / 2.1.2:
Copy control / 2.1.3:
Authentication / 2.2:
Cryptography vs watermarking / 2.2.1:
A general authentication framework / 2.2.2:
Requirements of data-hiding-based authentication / 2.2.3:
Data hiding for multimedia transmission / 2.3:
Data compression / 2.3.1:
Error recovery / 2.3.2:
Annotation watermarks / 2.4:
Labelling for data retrieval / 2.4.1:
Bridging the gap between analog and digital objects / 2.4.2:
Covert communications / 2.5:
Information coding in detectable watermarking / 2.6:
Spread spectrum watermarking / 3.1.1:
Orthogonal waveforms watermarking / 3.1.2:
Orthogonal vs PN watermarking / 3.1.3:
Self-synchronizing PN sequences / 3.1.4:
Power spectrum shaping / 3.1.5:
Chaotic sequences / 3.1.6:
Direct embedding / 3.1.7:
Waveform-based readable watermarking / 3.2:
Information coding through M-ary signaling / 3.2.1:
Position encoding / 3.2.2:
Binary signaling / 3.2.3:
Direct embedding readable watermarking / 3.3:
Direct embedding binary signalling with bit repetition / 3.3.1:
Channel coding / 3.4:
Block codes / 3.4.1:
Convolutional codes / 3.4.2:
Coding vs bit repetition / 3.4.3:
Channel coding vs orthogonal signaling / 3.4.4:
Informed coding / 3.4.5:
Data embedding / 3.5:
Feature selection / 4.1:
Watermarking in the asset domain / 4.1.1:
Watermarking in a transformed domain / 4.1.2:
Hybrid techniques / 4.1.3:
Watermarking in the compressed domain / 4.1.4:
Miscellaneous non-conventional choices of the feature set / 4.1.5:
Blind embedding / 4.2:
Additive watermarking / 4.2.1:
Multiplicative watermarking / 4.2.2:
Informed embedding / 4.3:
Detectable watermarking / 4.3.1:
Readable watermarking / 4.3.2:
Data concealment / 4.4:
The Human Visual System / 5.1:
The Weber law and the contrast / 5.1.1:
The contrast sensitivity function / 5.1.2:
The masking effect / 5.1.3:
Mapping luminance to images / 5.1.4:
Perception of color stimuli / 5.1.5:
Perception of time-varying stimuli / 5.1.6:
The Human Auditory System (HAS) / 5.2:
Concealment through feature selection / 5.2.1:
Concealment through signal adaptation / 5.4:
Concealment through perceptual masks / 5.4.1:
Concealment relying on visibility thresholds / 5.4.2:
Heuristic approaches for still images / 5.4.3:
A theoretically funded perceptual threshold for still images / 5.4.4:
MPEG-based concealment for audio / 5.4.5:
Application oriented concealment / 5.5:
Video surveillance systems / 5.5.1:
Remote sensing images / 5.5.2:
Data recovery / 5.6:
Watermark detection / 6.1:
A hypothesis testing problem / 6.1.1:
AWGN channel / 6.1.2:
Additive / Generalized Gaussian channel / 6.1.3:
Signal dependent noise with host rejection at the embedder / 6.1.4:
Taking perceptual masking into account / 6.1.5:
Multiplicative Gaussian channel / 6.1.6:
Multiplicative Weibull channel / 6.1.7:
Multichannel detection / 6.1.8:
Decoding / 6.2:
General problem for binary signalling / 6.2.1:
Binary signaling through AWGN channel / 6.2.2:
Generalized Gaussian channel / 6.2.3:
Multiplicative watermarking with Gaussian noise / 6.2.4:
Multiplicative watermarking of Weibull-distributed features / 6.2.5:
Quantization Index Modulation / 6.2.6:
Decoding in the presence of channel coding / 6.2.7:
Assessment of watermark presence / 6.2.8:
Watermark impairments and benchmarking / 6.3:
Classification of attacks / 7.1:
Measuring obtrusiveness and attack strength / 7.2:
Gaussian noise addition / 7.3:
Additive vs multiplicative watermarking / 7.3.1:
Spread Spectrum vs QIM watermarking / 7.3.2:
Conventional signal processing / 7.4:
The gain attack / 7.4.1:
Histogram equalization / 7.4.2:
Filtering / 7.4.3:
Lossy coding / 7.5:
Quantization of the watermarked features / 7.5.1:
Geometric manipulations / 7.6:
Asset translation / 7.6.1:
Asset zooming / 7.6.2:
Image rotation / 7.6.3:
More complex geometric transformations / 7.6.4:
Countermeasures against geometric manipulations / 7.6.5:
Editing / 7.7:
Digital to analog and analog to digital conversion / 7.8:
Malicious attacks / 7.9:
Attack estimation / 7.10:
Benchmarking / 7.11:
Early benchmarking systems / 7.11.1:
StirMark / 7.11.2:
Improving conventional systems / 7.11.3:
A new benchmarking structure / 7.11.4:
Security issues / 7.12:
Security by obscurity / 8.1:
The symmetric case / 8.2:
The asymmetric case / 8.3:
Playing open cards / 8.4:
Security based on protocol design / 8.5:
An information theoretic perspective / 8.6:
Some historical notes / 9.1:
The watermarking game / 9.2:
The rules of the game / 9.2.1:
Some selected results / 9.2.2:
Capacity under average distortion constraints / 9.2.3:
The additive attack watermarking game / 9.3:
Game definition and main results / 9.3.1:
Costa's writing on dirty paper / 9.3.2:
Lattice-based capacity-achieving watermarking / 9.4:
Equi-energetic structured code-books / 9.5:
Bibliography / 9.6:
Index
Series introduction
Preface
Introduction / 1:
8.

図書

図書
Li Deng, Douglas O'Shaughnessy
出版情報: New York : Marcel Dekker, c2003  xxii, 626 p. ; 24 cm
シリーズ名: Signal processing and communications series ; 17
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9.

図書

図書
Ben Sawyer & Dave Greely
出版情報: Cincinnati, Ohio : Muska & Lipman, c2000  xviii, 492 p. ; 23 cm
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10.

図書

図書
by Sebastian Möller
出版情報: Boston : Kluwer Academic Publishers, c2000  xx, 244 p. ; 25 cm
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