An improved distributed power-control scheme for cellular mobile systems

HAMID FARROKHI; MOSTAFA REZAYI

An improved distributed power-control scheme for cellular mobile systems

Authors: HAMID FARROKHI, MOSTAFA REZAYI

Abstract: In this paper, a new distributed power-control (DPC) scheme is suggested to improve convergence speed and system robustness against carrier-to-interference-ratio (CIR) estimation errors. To expedite the CIR balancing in our DPC scheme, an instability detection rule was used. As compared with Foschini's DPC (FDPC) method, numerical results indicated that the proposed algorithm achieves performance improvements in terms of outage probability as well as in the algorithm's convergence speed. More specifically, by appropriate selection of some parameters, the algorithm speed reduces from about 90 iterations in FDPC to 9 iterations in the proposed algorithm. The system robustness against CIR estimation errors was also explored.

Keywords: Cellular systems, CIR balancing, distributed algorithms, instability detection, power control

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