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Hardcover ISBN:  9780821847978 
Product Code:  GSM/102 
List Price:  $135.00 
MAA Member Price:  $121.50 
AMS Member Price:  $108.00 
Softcover ISBN:  9781470475673 
Product Code:  GSM/102.S 
List Price:  $89.00 
MAA Member Price:  $80.10 
AMS Member Price:  $71.20 
eBook ISBN:  9781470411664 
Product Code:  GSM/102.E 
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MAA Member Price:  $76.50 
AMS Member Price:  $68.00 
Hardcover ISBN:  9780821847978 
eBook ISBN:  9781470411664 
Product Code:  GSM/102.B 
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Book DetailsGraduate Studies in MathematicsVolume: 102; 2002; 376 ppMSC: Primary 42
This book provides a concrete introduction to a number of topics in harmonic analysis, accessible at the early graduate level or, in some cases, at an upper undergraduate level. Necessary prerequisites to using the text are rudiments of the Lebesgue measure and integration on the real line. It begins with a thorough treatment of Fourier series on the circle and their applications to approximation theory, probability, and plane geometry (the isoperimetric theorem). Frequently, more than one proof is offered for a given theorem to illustrate the multiplicity of approaches.
The second chapter treats the Fourier transform on Euclidean spaces, especially the author's results in the threedimensional piecewise smooth case, which is distinct from the classical Gibbs–Wilbraham phenomenon of onedimensional Fourier analysis. The Poisson summation formula treated in Chapter 3 provides an elegant connection between Fourier series on the circle and Fourier transforms on the real line, culminating in Landau's asymptotic formulas for lattice points on a large sphere.
Much of modern harmonic analysis is concerned with the behavior of various linear operators on the Lebesgue spaces \(L^p(\mathbb{R}^n)\). Chapter 4 gives a gentle introduction to these results, using the Riesz–Thorin theorem and the Marcinkiewicz interpolation formula. One of the longtime users of Fourier analysis is probability theory. In Chapter 5 the central limit theorem, iterated log theorem, and Berry–Esseen theorems are developed using the suitable Fourieranalytic tools.
The final chapter furnishes a gentle introduction to wavelet theory, depending only on the \(L_2\) theory of the Fourier transform (the Plancherel theorem). The basic notions of scale and location parameters demonstrate the flexibility of the wavelet approach to harmonic analysis.
The text contains numerous examples and more than 200 exercises, each located in close proximity to the related theoretical material.
Originally published by Brooks Cole/Cengage Learning as ISBN: 9780534376604.
ReadershipUndergraduate and graduate students interested in Fourier transform and harmonic analysis.

Table of Contents

Chapters

Chapter 1. Fourier series on the circle

Chapter 2. Fourier transforms on the line and space

Chapter 3. Fourier analysis in $L^p$ spaces

Chapter 4. Poisson simulation formula and multiple Fourier series

Chapter 5. Applications to probability theory

Chapter 6. Introduction to wavelets


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This book provides a concrete introduction to a number of topics in harmonic analysis, accessible at the early graduate level or, in some cases, at an upper undergraduate level. Necessary prerequisites to using the text are rudiments of the Lebesgue measure and integration on the real line. It begins with a thorough treatment of Fourier series on the circle and their applications to approximation theory, probability, and plane geometry (the isoperimetric theorem). Frequently, more than one proof is offered for a given theorem to illustrate the multiplicity of approaches.
The second chapter treats the Fourier transform on Euclidean spaces, especially the author's results in the threedimensional piecewise smooth case, which is distinct from the classical Gibbs–Wilbraham phenomenon of onedimensional Fourier analysis. The Poisson summation formula treated in Chapter 3 provides an elegant connection between Fourier series on the circle and Fourier transforms on the real line, culminating in Landau's asymptotic formulas for lattice points on a large sphere.
Much of modern harmonic analysis is concerned with the behavior of various linear operators on the Lebesgue spaces \(L^p(\mathbb{R}^n)\). Chapter 4 gives a gentle introduction to these results, using the Riesz–Thorin theorem and the Marcinkiewicz interpolation formula. One of the longtime users of Fourier analysis is probability theory. In Chapter 5 the central limit theorem, iterated log theorem, and Berry–Esseen theorems are developed using the suitable Fourieranalytic tools.
The final chapter furnishes a gentle introduction to wavelet theory, depending only on the \(L_2\) theory of the Fourier transform (the Plancherel theorem). The basic notions of scale and location parameters demonstrate the flexibility of the wavelet approach to harmonic analysis.
The text contains numerous examples and more than 200 exercises, each located in close proximity to the related theoretical material.
Originally published by Brooks Cole/Cengage Learning as ISBN: 9780534376604.
Undergraduate and graduate students interested in Fourier transform and harmonic analysis.

Chapters

Chapter 1. Fourier series on the circle

Chapter 2. Fourier transforms on the line and space

Chapter 3. Fourier analysis in $L^p$ spaces

Chapter 4. Poisson simulation formula and multiple Fourier series

Chapter 5. Applications to probability theory

Chapter 6. Introduction to wavelets