Fourier Analysis and Approximation of Functions Fourier Analysis and Approximation of Functions by Roald M. Trigub Donetsk National University, Donetsk, Ukraine and Eduard S. Bellinsky University of West Indies, Bridgetown, Barbados Springer Science+Business Media, B.V. A C.I.P. Catalogue record for this book is available from the Library of Congress. ISBN 978-90-481-6641-1 ISBN 978-1-4020-2876-2 (eBook) DOI 10.1007/978-1-4020-2876-2 Printed on acid-free paper All Rights Reserved © 2004 Springer Science+Business Media Dordrecht Originally published by Kluwer Academic Publishers in 2004. Softcover reprint of the hardcover 1s t edition 2004 No part of this work may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, microfilming, recording or otherwise, without written permission from the Publisher, with the exception of any material supplied specifically for the purpose of being entered and executed on a computer system, for exclusive use by the purchaser of the work. DEDICATED TO THE MEMORY OF OUR PARENTS Contents Dedication v Preface Xl 1. REPRESENTATION THEOREMS 1 1.1 Theorems on representation at a point 1 1.2 Integral operators. Convergence in Lp-norm and almost everywhere 5 1.3 Multidimensional case 16 1.4 Further problems and theorems 20 1.5 Comments to Chapter 1 24 2. FOURIER SERIES 25 2.1 Convergence and divergence 25 2.2 Two classical summability methods 34 2.3 Harmonic functions and functions analytic in the disk 42 2.4 Multidimensional case 50 2.5 Further problems and theorems 59 2.6 Comments to Chapter 2 66 3. FOURIER INTEGRAL 67 3.1 L-Theory 67 3.2 L2-Theory 75 3.3 Multidimensional case 80 3.4 Entire functions of exponential type. The Paley-Wiener theorem 88 3.5 Further problems and theorems 95 3.6 Comments to Chapter 3 104 Vlll FOURIER ANALYSIS AND APPROXIMATION OF FUNCTIONS 4. DISCRETIZATION. DIRECT AND INVERSE THEOREMS 105 4.1 Summation formulas of Poisson and Euler-Maclaurin 106 4.2 Entire functions of exponential type and polynomials 113 4.3 Network norms. Inequalities of different metrics 125 4.4 Direct theorems of Approximation Theory 132 4.5 Inverse theorems. Constructive characteristics. Embedding theorems 138 4.6 Moduli of smoothness 144 4.7 Approximation on an interval 169 4.8 Further problems and theorems 189 4.9 Comments to Chapter 4 196 5. EXTREMAL PROBLEMS OF APPROXIMATION THEORY 201 5.1 Best approximation 201 5.2 The space Lp. Best approximation 205 5.3 Space C. The Chebyshev alternation 212 5.4 Extremal properties for algebraic polynomials and splines 218 5.5 Best approximation of a set by another set 234 5.6 Further problems and theorems 245 5.7 Comments to Chapter 5 252 6. A FUNCTION AS THE FOURIER TRANSFORM OF A MEASURE 255 6.1 Algebras A and B. The Wiener Tauberian theorem 256 6.2 Positive definite and completely monotone functions 264 6.3 Positive definite functions depending only on a norm 278 6.4 Sufficient conditions for belonging to Ap and A * 288 6.5 Further problems and theorems 304 6.6 Comments to Chapter 6 307 7. FOURIER MULTIPLIERS 309 7.1 General properties 309 7.2 Sufficient conditions 321 7.3 Multipliers of power series in the Hardy spaces 329 7.4 Multipliers and comparison of summability methods of orthogonal series 337 7.5 Further problems and theorems 345 Contents IX 7.6 Comments to Chapter 7 347 8. SUMMABILITY METHODS. MODULI OF SMOOTHNESS 349 8.1 Regularity 349 8.2 Applications of comparison. Two-sided estimates 358 8.3 Moduli of smoothness and K-functionals 368 8.4 Moduli of smoothness and strong summability in Hp(D), 0< p::; 1 375 8.5 Further problems and theorems 385 8.6 Comments to Chapter 8 389 9. LEBESGUE CONSTANTS AND APPROXIMATION 393 9.1 Upper and lower estimates 394 9.2 Examples of Lebesgue constants in the multiple case 404 9.3 Asymptotics of Lebesgue constants and approximation 410 9.4 Further problems and theorems 423 9.5 Comments to Chapter 9 427 10. WIDTHS. POLYNOMIAL APPROXIMATION 429 10.1 Entropy numbers 429 10.2 Polynomials with free spectrum. Trigonometric widths 438 10.3 Kolmogorov widths 450 10.4 Further problems and theorems 469 10.5 Comments to Chapter 10 475 11. FUNCTIONS WITH BOUNDED MIXED DERIVATIVE 477 11.1 Hyperbolic cross polynomials 477 11.2 Estimates of entropy numbers 486 11.3 Widths 499 11.4 Further problems and theorems 506 11.5 Comments to Chapter 11 509 Appendices 511 A Prerequisites 511 A.l Weierstrass approximation theorems 511 A.2 The modulus of continuity of a function 512 A.3 The Riemann-Stieltjes integral 513 A.4 Summability of series 514 x FOURIER ANALYSIS AND APPROXIMATION OF FUNCTIONS A.5 Analytic functions 516 A.6 Measure and integral. Complex-valued measures 519 A.7 Hilbert spaces. Classical orthonormal systems 525 A.8 Banach spaces and linear operators 531 A.9 Fourier multipliers 534 A.lO Several classical theorems 536 A.l1 Polynomials with integral coefficients 537 A.12 Some inequalities 537 B Principal symbols 541 B.1 ~m and its subsets 541 B.2 Functional notations 541 References 543 Author Index 577 Topic Index 588 Preface In this book basics of classical Fourier Analysis are given (Fourier series and integrals, the Fourier transform of a measure, etc.) as well as those of approximation by polynomials, splines, and entire functions of exponential type (direct and inverse theorems, approximation properties of summability methods of simple and multiple Fourier series, extremal problems). Our interest in special results in Fourier Analysis is mainly motivated by certain approximation problems, albeit many of the obtained results in Fourier Analysis are of considerable importance in their own right. Nevertheless, with almost no exclusion such results are applied to prov ing one or another problem in Approximation Theory. In Chapter 1, which is of introductory nature, theorems on conver gence, in that or another sense, of integral operators are given. In Chap ter 2 basic properties of simple and multiple Fourier series are discussed, while in Chapter 3 those of Fourier integrals are studied. The first three chapters as well as partially Chapter 4 and classi cal Wiener, Bochner, Bernstein, Khintchin, and Beuding theorems in Chapter 6 might be interesting and available to all familiar with fun damentals of integration theory and elements of Complex Analysis and Operator Theory. Applied mathematicians interested in harmonic anal ysis and/or numerical methods based on ideas of Approximation Theory are among them. The book is supplied with appendix in which theorems from general mathematical courses as well as some special results used throughout the text are collected. When writing the rest of the book, the authors followed the idea that one of the main goals of writing a monograph is a sort of summarizing and stimulating further study of the problems discussed. In Chapters 6- 11 very recent results are sometimes given in certain directions. These are multipliers of Fourier series and multipliers of power series in the