Perfect Output Feedback in the Two-User Decentralized Interference Channel
Abstract
In this paper, the -Nash equilibrium (-NE) region of the two-user Gaussian interference channel (IC) with perfect output feedback is approximated to within bit/s/Hz and arbitrarily close to bit/s/Hz. The relevance of the -NE region is that it provides the set of rate-pairs that are achievable and stable in the IC when both transmitter-receiver pairs autonomously tune their own transmit-receive configurations seeking an -optimal individual transmission rate. Therefore, any rate tuple outside the -NE region is not stable as there always exists one link able to increase by at least bits/s/Hz its own transmission rate by updating its own transmit-receive configuration. The main insights that arise from this work are: The -NE region achieved with feedback is larger than or equal to the -NE region without feedback. More importantly, for each rate pair achievable at an -NE without feedback, there exists at least one rate pair achievable at an -NE with feedback that is weakly Pareto superior. There always exists an -NE transmit-receive configuration that achieves a rate pair that is at most bit/s/Hz per user away from the outer bound of the capacity region.
Cite
@article{arxiv.1306.2878,
title = {Perfect Output Feedback in the Two-User Decentralized Interference Channel},
author = {Samir M. Perlaza and Ravi Tandon and H. Vincent Poor and Zhu Han},
journal= {arXiv preprint arXiv:1306.2878},
year = {2015}
}
Comments
Revised version (Aug. 2015)