Convex Optimization in Signal Processing and Communications

Author:

Daniel P. Palomar, Hong Kong University of Science and Technology
Yonina C. Eldar, Weizmann Institute of Science, Israel

Published:

June 2010

Format:

Adobe eBook Reader

ISBN:

9780511687501

$124.00

USD

Adobe eBook Reader

£93.99 GBP

Hardback

Description

Over the past two decades there have been significant advances in the field of optimization. In particular, convex optimization has emerged as a powerful signal processing tool, and the variety of applications continues to grow rapidly. This book, written by a team of leading experts, sets out the theoretical underpinnings of the subject and provides tutorials on a wide range of convex optimization applications. Emphasis throughout is on cutting-edge research and on formulating problems in convex form, making this an ideal textbook for advanced graduate courses and a useful self-study guide. Topics covered range from automatic code generation, graphical models, and gradient-based algorithms for signal recovery, to semidefinite programming (SDP) relaxation and radar waveform design via SDP. It also includes blind source separation for image processing, robust broadband beamforming, distributed multi-agent optimization for networked systems, cognitive radio systems via game theory, and the variational inequality approach for Nash equilibrium solutions.

A team of leading experts provide tutorials on a wide range on convex optimization applications
Covers the theoretical underpinnings of the subject
Emphasizes cutting-edge research and formulating problems in convex form

Product details

Published: June 2010
Format: Adobe eBook Reader
ISBN: 9780511687501
Length: 0 pages
Weight: 0kg
Contains: 95 b/w illus. 16 tables 5 exercises
Availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.

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Contents

1. Automatic code generation for real-time convex optimization J. Mattingley and S. Boyd
2. Gradient-based algorithms with applications to signal recovery problems A. Beck and M. Teboulle
3. Graphical models of autoregressive processes J. Songsiri, J. Dahl and L. Vandenberghe
4. SDP relaxation of homogeneous quadratic optimization Z. Q. Luo and T. H. Chang
5. Probabilistic analysis of SDR detectors for MIMO systems A. Man-Cho So and Y. Ye
6. Semidefinite programming, matrix decomposition, and radar code design Y. Huang, A. De Maio and S. Zhang
7. Convex analysis for non-negative blind source separation with application in imaging W. K. Ma, T. H. Chan, C. Y. Chi and Y. Wang
8. Optimization techniques in modern sampling theory T. Michaeli and Y. C. Eldar
9. Robust broadband adaptive beamforming using convex optimization M. Rübsamen, A. El-Keyi, A. B. Gershman and T. Kirubarajan
10. Cooperative distributed multi-agent optimization A. Nenadić and A. Ozdaglar
11. Competitive optimization of cognitive radio MIMO systems via game theory G. Scutari, D. P. Palomar and S. Barbarossa
12. Nash equilibria: the variational approach F. Facchinei and J. S. Pang.

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J. Mattingley, S. Boyd, A. Beck, M. Teboulle, J. Songsiri, J. Dahl, L. Vandenberghe, Z. Q. Luo, T. H. Chang, A. Man-Cho So, Y. Ye, Y. Huang, A. De Maio, S. Zhang, W. K. Ma, T. H. Chan, C. Y. Chi, Y. Wang, T. Michaeli, Y. C. Eldar, M. Rübsamen, A. El-Keyi, A. B. Gershman, T. Kirubarajan, A. Nenadić, A. Ozdaglar, G. Scutari, D. P. Palomar, S. Barbarossa, F. Facchinei, J. S. Pang

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