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Iterative power control and resource allocation for general interference functions - a superlinearly convergent algorithm

 
: Boche, H.; Schubert, M.

:

Institute of Electrical and Electronics Engineers -IEEE-:
Proceedings of the 45th IEEE Conference on Decision and Control. Vol. 7 : San Diego, CA, 13 - 15 December 2006
Piscataway, NJ: IEEE, 2006
ISBN: 1-424-40170-4
pp.2974-2979
Conference on Decision and Control (CDC) <45, 2006, San Diego/Calif.>
English
Conference Paper
Fraunhofer HHI ()
interference signal; matrix algebra; Newton method; quality of service; radio networks; resource allocation

Abstract
We consider a multiuser wireless network, where users are coupled by interference. Thus, transmission powers should be optimized jointly with the receive strategy, like beamforming, CDMA, base station assignment, etc. We study the problem of minimizing the total transmission power while maintaining individual QoS values for all users. This problem can be solved by the fixed-point iteration proposed by R. D. Yates (1995) as well as by a recently proposed matrix-based iteration by the authors (2006). It was observed by numerical simulations that the matrix-based iteration has interesting numerical properties, and achieves the global optimum in only a few steps. However, an analytical investigation of the convergence behavior has been an open problem so far. In this paper, we show that the matrix-based iteration can be reformulated as a Newton- type iteration of a convex function, which is not continuously differentiable. This property is caused by ambiguous receive strategies, resulting in ambiguous representations of the interference functions. By exploiting the special structure of the problem, we show that the iteration has super-linear convergence.

: http://publica.fraunhofer.de/documents/N-60570.html