Wavelets: A Student Guide

Peter Nickolas

doi:10.1017/9781139644280

This text offers an excellent introduction to the mathematical theory of wavelets for senior undergraduate students. Despite the fact that this theory is intrinsically advanced, the author's elementary approach makes it accessible at the undergraduate level. Beginning with thorough accounts of inner product spaces and Hilbert spaces, the book then shifts its focus to wavelets specifically, starting with the Haar wavelet, broadening to wavelets in general, and culminating in the construction of the Daubechies wavelets. All of this is done using only elementary methods, bypassing the use of the Fourier integral transform. Arguments using the Fourier transform are introduced in the final chapter, and this less elementary approach is used to outline a second and quite different construction of the Daubechies wavelets. The main text of the book is supplemented by more than 200 exercises ranging in difficulty and complexity.

'Not only does it bring the subject in a most suitable and systematic way that, I am sure, mathematics students are used to and probably appreciate most. It is also following some good rules of didactics taking the students by the hand and bringing them to a higher level of understanding, ensuring that at least the bulk of the students does not declutch. A lot of effort is put into taking the rungs of the ladder at just the right pace, not boringly slow or not frighteningly fast, and always placing a chapter in the proper context: what has been achieved, and where do we want to go?'

Adhemar Bultheel Source: European Mathematical Society

'What is really nice with this book is its style, which leads the student step by step through different ideas, theorems and proofs. It explains the reason behind new concepts, discusses their shortcomings, and uses these as a motivation to introduce other concepts.'

Salim Salem Source: MAA Reviews

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Wavelets

A Student Guide

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Contents

Frontmatter
pp i-iv

Contents
pp v-vi

Preface
pp vii-x

1 - An Overview
pp 1-30

2 - Vector Spaces
pp 31-41

3 - Inner Product Spaces
pp 42-79

4 - Hilbert Spaces
pp 80-125

5 - The Haar Wavelet
pp 126-140

6 - Wavelets in General
pp 141-175

7 - The Daubechies Wavelets
pp 176-217

8 - Wavelets in the Fourier Domain
pp 218-250

Appendix: Notes on Sources
pp 251-258

References
pp 259-261

Index
pp 262-264

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