A Distributed Resource Allocation Scheme Based on Non-cooperative Game Theory for Relaying Networks

doi:10.13190/jbupt.200806.80.wut

JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM ›› 2008, Vol. 31 ›› Issue (6): 80-84.doi: 10.13190/jbupt.200806.80.wut

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A Distributed Resource Allocation Scheme Based on Non-cooperative Game Theory for Relaying Networks

WU Tong1,2, YU Xin-min2, HUANG Jing2, WANG Ying1,2, TIAN Hui1,2

(1. Key Laboratory of Universal Wireless Communications (Beijing University of Posts and Telecommunications), Ministry of Education, Beijing 100876, China; 2. Wireless Technology Innovation Institute, Beijing University of Posts and Telecommunications, Beijing 100876, China)

Received:2008-03-06 Revised:2008-08-22 Online:2008-12-31 Published:2008-12-31
Contact: WU Tong

Abstract

Abstract:

A distributed resource allocation scheme was proposed for relaying networks utilized orthogonal frequency division multiple access (OFDMA) technique. The problem was described as a relaying non- cooperative power allocation game (RNCPAG) between the node B and the relay node, and two utilities functions were exploited taking the maximum utility function as the optimization criterion. Moreover, on the constraints of the limited total transmission power, the existence of Nash equilibrium was investigated, while the proposed algorithm converged to a unique Nash equilibrium. Compared with the traditional uniform power allocation scheme, the study shows that the proposed scheme can significantly improve the performance in terms of system capacity and resource utilization within a few steps of iteration.

Key words: distributed resource allocation, non-cooperative power allocation game, utility function

CLC Number:

TN915

WU Tong1,2, YU Xin-min2, HUANG Jing2, WANG Ying1,2, TIAN Hui1,2. A Distributed Resource Allocation Scheme Based on Non-cooperative Game Theory for Relaying Networks[J]. JOURNAL OF BEIJING UNIVERSITY OF POSTS AND TELECOM, 2008, 31(6): 80-84.

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A Distributed Resource Allocation Scheme Based on Non-cooperative Game Theory for Relaying Networks

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