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Geometric Programming for Communication Systems
Author(s): Mung Chiang
Source:
Journal:Foundations and Trends® in Communications and Information Theory
ISSN Print:1567-2190, ISSN Online:1567-2328
Publisher:Now Publishers
Volume 2 Number 1,
Document Type: Article
Pages: 154(1-154)
DOI: 10.1516/0100000005
Abstract: Geometric Programming (GP) is a class of nonlinear optimization with
many useful theoretical and computational properties. Over the last
few years, GP has been used to solve a variety of problems in the
analysis and design of communication systems in several ‘layers’
in the communication network architecture, including information theory
problems, signal processing algorithms, basic queuing system optimization,
many network resource allocation problems such as power control and
congestion control, and cross-layer design. We also start to understand why,
in addition to how, GP can be applied to a surprisingly wide range of
problems in communication systems. These applications have in turn spurred
new research activities on GP, especially generalizations of GP formulations
and development of distributed algorithms to solve GP in a network. This text
provides both an in-depth tutorial on the theory, algorithms, and modeling
methods of GP, and a comprehensive survey on the applications of GP to the
study of communication systems.
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