TY  - BOOK
AU  - Burrus,C.Sidney
ED  - Open Textbook Library
TI  - Fast Fourier Transforms
T2  - Open textbook library
AV  - QA76 
CY  - Minneapolis, MN
PB  - Open Textbook Library
KW  - Computer Science
KW  - Textbooks
N1  - 1 Preface: Fast Fourier Transforms -- 2 Introduction: Fast Fourier Transforms -- 3 Multidimensional Index Mapping -- 4 Polynomial Description of Signals -- 5 The DFT as Convolution or Filtering -- 6 Factoring the Signal Processing Operators -- 7 Winograd's Short DFT Algorithms -- 8 DFT and FFT: An Algebraic View -- 9 The Cooley-Tukey Fast Fourier Transform Algorithm -- 10 The Prime Factor and Winograd Fourier Transform Algorithms -- 11 Implementing FFTs in Practice -- 12 Algorithms for Data with Restrictions -- 13 Convolution Algorithms -- 14 Comments: Fast Fourier Transforms -- 15 Conclusions: Fast Fourier Transforms -- 16 Appendix 1: FFT Flowgraphs -- 17 Appendix 2: Operation Counts for General Length FFT -- 18 Appendix 3: FFT Computer Programs -- 19 Appendix 4: Programs for Short FFTs
N2  - This book focuses on the discrete Fourier transform (DFT), discrete convolution, and, particularly, the fast algorithms to calculate them. These topics have been at the center of digital signal processing since its beginning, and new results in hardware, theory and applications continue to keep them important and exciting. This book uses an index map, a polynomial decomposition, an operator factorization, and a conversion to a filter to develop a very general and efficient description of fast algorithms to calculate the discrete Fourier transform (DFT). The work of Winograd is outlined, chapters by Selesnick, Pueschel, and Johnson are included, and computer programs are provided
UR  - https://open.umn.edu/opentextbooks/textbooks/261
ER  -