Title :
Performance evaluation of an improved distributed power-control scheme for cellular mobile systems
Author :
Rezayi, Mostafa ; Farrokhi, Hamid
Author_Institution :
Fac. of Eng., Univ. of Birjand, Birjand, Iran
Abstract :
The distributive power-control (DPC) schemes have been developed to cope with computational complexities arising from CPC schemes. In this paper, a new DPC scheme is suggested to improve the 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 is used. Numerical results indicate that the proposed algorithm, as compared with Foschini´s DPC (FDPC) and three other newer methods, achieves performance improvements in terms of outage probability as well as algorithm´s convergence speed. More specifically, by appropriate selection of some parameters, the algorithm speed increases from about 90 iterations in FDPC to 9 iterations in the proposed algorithm. We use a detection rule to expedite the cell-removal process. The system robustness against CIR estimation errors is also explored.
Keywords :
cellular radio; computational complexity; estimation theory; performance evaluation; power control; probability; telecommunication control; CIR estimation errors; CPC schemes; DPC scheme; carrier-to-interference-ratio estimation errors; cell-removal process; cellular mobile systems; computational complexity; convergence speed algorithm; distributed power-control scheme; instability detection rule; outage probability; performance evaluation; Artificial intelligence; Downlink; Linear matrix inequalities; Matrix converters; Robustness; CIR balancing; cellular systems; distributed algorithm; instability detection; power control;
Conference_Titel :
Circuits,Communications and System (PACCS), 2010 Second Pacific-Asia Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-7969-6
DOI :
10.1109/PACCS.2010.5626593
