Interactive MATLAB Software (Free p-code)

Information

Numerical examples used in the text are computed using a suite of object-oriented tools developed in MATLAB 5 called the Wavelet Signal Processing Workstation (WSPW).

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Audience

Mathematics and engineering students at the undergraduate and graduate levels will benefit greatly from the introductory treatment of the subject. Professionals and advanced students will find the overcomplete approach to signal representation and processing of great value.

Topics

This work is geared towards practical application and numerical implementation of wavelet-based algorithms supported by a solid mathematical foundation. Some of its main features are listed as follows.

  1. An expository treatment of the following topics are included:
  2. A frame-based theory of the discretization and reconstruction of analog signals is developed in terms of the sampling of a continuous transform.
  3. The continuous wavelet and Gabor transforms are introduced in a unified group-theoretic setting.
  4. Concepts and techniques are numerically demonstrated through
  5. Problem exercises are given at the end of each major chapter to reinforce concepts and ideas.
  6. A new and efficient overcomplete wavelet transform is introduced and applied to the tasks of

Table of Contents

  1. Introduction
  2. Mathematical Preliminaries
  3. Signal Representation and Frames
  4. Continuous Wavelet Transform
  5. Discrete Wavelet Transform
  6. Overcomplete Wavelet Transform
  7. Wavelet Signal Processing
  8. Object-Oriented Wavelet Analysis with Matlab 5

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