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Fundamentals of Wavelets: Theory, Algorithms, and Applications, 2nd Edition

ISBN: 978-0-470-48413-5

January 2011

384 pages

Description
Most existing books on wavelets are either too mathematical or they focus on too narrow a specialty. This book provides a thorough treatment of the subject from an engineering point of view. It is a one-stop source of theory, algorithms, applications, and computer codes related to wavelets. This second edition has been updated by the addition of:
  • a section on "Other Wavelets" that describes curvelets, ridgelets, lifting wavelets, etc
  • a section on lifting algorithms
  • Sections on Edge Detection and Geophysical Applications
  • Section on Multiresolution Time Domain Method (MRTD) and on Inverse problems
About the Author

Jaideva C. Goswami, PhD, is an Engineering Advisor at Schlumberger in Sugarland, Texas. He is also a former professor of Electronics and Communication Engineering at the Indian Institute of Technology, Kharagpur. Dr. Goswami has taught several short courses on wavelets and contributed to the Wiley Encyclopedia of Electrical and Electronics Engineering as well as Wiley Encyclopedia of RF and Microwave Engineering. He has many research papers and patents to his credit, and is a Fellow of IEEE.

Andrew K. Chan, PhD, is on the faculty of Texas A&M University and is the coauthor of Wavelets in a Box and Wavelet Toolware. He is a Life Fellow of IEEE.

New to Edition
This second edition has been updated by the addition of:

a section on "Other Wavelets" that describes curvelets, ridgelets, lifting wavelets, etc

a section on lifting algorithms

Sections on Edge Detection and Geophysical Applications

Section on Multiresolution Time Domain Method (MRTD) and on Inverse problems

Features
  • Presents a comprehensive engineering approach to wavelet theory
  • Numerous examples and figures are included
  • Features wide-ranging applications such as signal processing, electromagnetic wave scattering, and boundary value problems
  • Covers other time-frequency analysis techniques such as short-time fourier transform and Wigner-Ville Distribution
  • includes discussion of lifting and complex wavelets
  • describes curvelets and ridgelets
  • Discusses Multiresolution Time Domain Method (MRTD)