Rights Contact Login For More Details
More About This Title Digital Signal and Image Processing using Matlab 2 - 2nd edition
English
Volume 3 of the second edition of the fully revised and updated Digital Signal and Image Processing using MATLAB®, after first two volumes on the “Fundamentals” and “Advances and Applications: The Deterministic Case”, focuses on the stochastic case. It will be of particular benefit to readers who already possess a good knowledge of MATLAB®, a command of the fundamental elements of digital signal processing and who are familiar with both the fundamentals of continuous-spectrum spectral analysis and who have a certain mathematical knowledge concerning Hilbert spaces.
This volume is focused on applications, but it also provides a good presentation of the principles. A number of elements closer in nature to statistics than to signal processing itself are widely discussed. This choice comes from a current tendency of signal processing to use techniques from this field.
More than 200 programs and functions are provided in the MATLAB® language, with useful comments and guidance, to enable numerical experiments to be carried out, thus allowing readers to develop a deeper understanding of both the theoretical and practical aspects of this subject.
English
Gérard Blanchet is Professor at Telecom ParisTech, France. In addition to his research, teaching and consulting activities, he is the author of several books on automatic control systems, digital signal processing and computer architecture. He also develops tools and methodologies to improve knowledge acquisition in various fields.
Maurice Charbit is Professor at Telecom ParisTech, France. He is a teacher in probability theory, signal processing, communication theory and statistics for data processing. With regard to research, his main areas of interest are: (i) the Bayesian approach for hidden Markov models, (ii) the 3D model-based approach for face tracking, and (iii) processing for multiple sensor arrays with applications to infrasonic systems.
English
Notations and Abbreviations xiii
1 Mathematical Concepts 1
1.1 Basic concepts on probability 1
1.2 Conditional expectation 9
1.3 Projection theorem 10
1.4 Gaussianity 13
1.5 Random variable transformation 18
1.6 Fundamental statistical theorems 21
1.7 Other important probability distributions 23
2 Statistical Inferences 25
2.1 Statistical model 25
2.2 Hypothesis tests 27
2.3 Statistical estimation 41
3 Monte-Carlo Simulation 85
3.1 Fundamental theorems 85
3.2 Stating the problem 86
3.3 Generating random variables 88
3.4 Variance reduction 99
4 Second Order Stationary Process 107
4.1 Statistics for empirical correlation 107
4.2 Linear prediction of WSS processes 111
4.3 Non-parametric spectral estimation of WSS processes 124
5 Inferences on HMM 139
5.1 Hidden Markov Models (HMM) 130
5.2 Inferences on HMM 142
5.3 Gaussian linear case: the Kalman filter 143
5.4 Discrete finite Markov case 152
6 Selected Topics 163
6.1 High resolution methods 163
6.2 Digital Communications 186
6.3 Linear equalization and the Viterbi algorithm 211
6.4 Compression 220
7 Hints and Solutions 235
H1 Mathematical concepts 235
H2 Statistical inferences 237
H3 Monte-Carlo simulation 269
H4 Second order stationary process 283
H5 Inferences on HMM 283
H6 Selected Topics 300
8 Appendices 317
A1 Miscellaneous functions 317
A2 Statistical functions 318
Bibliography 329
Index 333
