JOURNAL ARTICLE
Game-theoretic resource allocation in relay-assisted DS/CDMA systems with successive interference cancellation
Abstract
The problem of non-cooperative resource allocation in an amplify-and-forward relay-assisted DS/CDMA system is addressed. The relay designs its amplify-and-forward matrix for achievable sum-rate maximization, whereas the multiple access users pursue individual achievable rate maximization. The interaction between the relay and the multiple access users has been modeled as a Stackelberg game, with the relay as the leader and the multiple access users as followers. Numerical results are provided to show the merits of the proposed algorithm.
Keywords:
Relay Stackelberg competition Computer science Maximization Resource allocation Code division multiple access Computer network Single antenna interference cancellation Game theory Interference (communication) Mathematical optimization Mathematics
Metrics
1
Cited By
0.37
FWCI (Field Weighted Citation Impact)
14
Refs
0.64
Citation Normalized Percentile
Is in top 1%
Is in top 10%
Citation History
Topics
Cooperative Communication and Network Coding
Physical Sciences → Computer Science → Computer Networks and Communications
Wireless Communication Networks Research
Physical Sciences → Computer Science → Computer Networks and Communications
Advanced Wireless Communication Techniques
Physical Sciences → Engineering → Electrical and Electronic Engineering
Related Documents
JOURNAL ARTICLE
Game-theoretic power control in DS-CDMA wireless networks with successive interference cancellation
Journal: Electronics Letters Year: 2006 Vol: 42 (3)Pages: 162-163
JOURNAL ARTICLE
Resource allocation in relay-assisted DS/CDMA interference channels: A Stackelberg game approach
Alessio ZapponeEduard A. Jorswieck
Year: 2010 Vol: 1 Pages: 260-265
JOURNAL ARTICLE
Blind successive interference cancellation for DS-CDMA systems
Dragan SamardžijaNarayan B. MandayamIvan Seskar
Journal: IEEE Transactions on Communications Year: 2002 Vol: 50 (2)Pages: 276-290