Finite-Field Wavelet Transforms with Applications in Cryptography and Coding

Finite-Field Wavelet Transforms with Applications in Cryptography and Coding

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Finite-Field Wavelet Transforms with Applications in Cryptology and Coding is ideal for graduate students, research engineers, and practicing professionals.This text explores wavelets and filter banks over finite-fields and their intersection with error control coding and data encryption. It develops the "theory of wavelet transforms over finite-fields," which provides a general wavelet decomposition of sequences defined over finite-fields. Along with wavelet theory on finite-fields, this work introduces the first application of this theory to error correcting codes and data security. It also introduces a finite-field wavelet based public key encryption technique.show more

Product details

  • Paperback | 304 pages
  • 182.88 x 233.68 x 15.24mm | 544.31g
  • Pearson Education (US)
  • Pearson
  • Boston, MA, United States
  • English
  • 0130600202
  • 9780130600202

About Faramarz Fekri

Faramarz Fekri received the B.Sc. and M.Sc. degrees from Sharif University of Technology, Tehran, Iran, in 1990 and 1993, respectively. From 1995 to 1996, he was with the Telecommunication Research Laboratories (TRLabs) , Calgary, Canada. There, he worked on Multicarrier Direct Sequence Spread Spectrum for Mobile Communication systems and was a recipient of the TRLabs' distinction award. In Fall of 1996, he started his Ph.D. studies at Georgia Tech. and received the Ph.D. degree in 2000. Since 2000, Dr. Fekri has been with the faculty of the School of ECE at the Georgia Institute of Technology, where he is now a full professor. He is a member of the Georgia Tech Broadband Institute (GTBI), the Center for Signal and Image Processing (CSIP), and the Georgia Tech Information Security Center (GTISC).Farshid Delgosha received the Ph.D. degree in Electrical and Computer Engineering from Georgia Institute of Technology , Atlanta, GA, USA, in 2007. The focus of his Ph.D. dissertation was in wavelet transform over finite fields, algebraic cryptography, and security aspects of wireless sensor networks. In 2006, he received the outstanding research award from the Center for Signal and Image Processing (CSIP), School of ECE, Georgia Institute of Technology. Since 2007, he has been with the faculty of Electrical and Computer Engineering Department at the New York Institute of Technology. He has been an IEEE member since 2002.show more

Review quote

"To begin with, this book is not used at a course that we teach. In fact, it seems a rather narrow specialization, and would need a good level of preparation to be ready for it. However, as I read through it, I found it very fascinating, and I thought it would merit a special topics course in our department. Prentice-Hall is to be congratulated for the bold move of publishing this book: it will become the definitive standard in its area!" - Todd Moon, Utah State Universityshow more

Table of contents

(NOTE: Each chapter begins with an Introduction.)1. Introduction. 2. Background Review. Brief Review of Number Theory and Finite Fields. Discrete Fourier Transform over Finite Fields. Basefield Transforms over Finite Fields. Wavelets for Discrete-Time Signals. Previous Work on Finite-Field Wavelets. Some Basic Concepts of Error-Control Coding. Summary.3. Finite-Field Wavelet Basis Functions. Finite-Field Discrete-Time Basis. Construction of Mother Wavelet and Scaling Function. Summary.4. Double Circulant Wavelet Block Codes. Structure of Double Circulant Wavelet Coding. Maximum-Distance Separable Codes. Double Circulant Self-Dual Codes. Decoding Wavelet Codes. Summary.5. Theory of Paraunitary Filter Banks Over Fields of Characteristic Two. Background Review. Unitary Matrices Over GF(2r). PU Matrices in Fields of Characteristic Two. Factorization of PU Matrices in GF(2r). Summary.6. Arbitrary-Rate Wavelet Block Codes. Structure of Wavelet Coding. Rate 1/L Maximum-Distance Separable Codes. Arbitrary-Rate Wavelet Block Codes. Arbitrary-Rate Maximum-Distance Separable Codes. Decoding Arbitrary-Rate Wavelet Block Codes. Summary.7. Wavelet Convolutional Codes. Structure of Wavelet Convolutional Codes. Algebraic Properties of Wavelet Convolutional Encoders. Syndrome Generators and Dual Encoders. Self-Dual and Self-Orthogonal Convolutional Codes. Time-Varying Wavelet Convolutional Codes and Bipartite Trellises. Summary.8. Concluding Remarks. Contributions. Suggestions for Future Research.Appendix A. Proofs for Chapter 5. Appendix B. Brief Review of Trellis Structures. Bibliography. Vita.show more

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