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ICASSP
2010
IEEE
2010
IEEE
Robust rate-maximization game under bounded channel uncertainty
The problem of decentralized power allocation for competitive rate maximization in a frequency-selective Gaussian interference channel is considered. In the absence of perfect knowledge of channel state information (CSI), a distribution-free robust game is formulated. A robust-optimization equilibrium (RE) is proposed where each player formulates a best response to the worst-case interference. The conditions for existence, uniqueness and convergence of the RE are derived. It is shown that the convergence reduces as the uncertainty increases. Simulations show an interesting phenomenon where the proposed RE moves closer to a Pareto-optimal solution as the CSI uncertainty bound increases, when compared to the classical Nash equilibrium under perfect CSI. Thus, the robust-optimization equilibrium successfully counters bounded channel uncertainty and increases system sum-rate due to users being more conservative about causing interference to other users.
Real-time TrafficGaussian Interference Channel | ICASSP 2010 | Robust-optimization Equilibrium | Signal Processing | Uncertainty Bound Increases |
Related Content
| Added | 11 Feb 2011 |
| Updated | 11 Feb 2011 |
| Type | Journal |
| Year | 2010 |
| Where | ICASSP |
| Authors | Amod J. G. Anandkumar, Animashree Anandkumar, Sangarapillai Lambotharan, Jonathon A. Chambers |
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