English

Distributed Cross-Layer Optimization in Wireless Networks: A Second-Order Approach

Networking and Internet Architecture 2016-11-18 v5 Distributed, Parallel, and Cluster Computing Information Theory Systems and Control math.IT Optimization and Control

Abstract

Due to the rapidly growing scale and heterogeneity of wireless networks, the design of distributed cross-layer optimization algorithms have received significant interest from the networking research community. So far, the standard distributed cross-layer approach in the literature is based on first-order Lagrangian dual decomposition and the subgradient method, which suffers a slow convergence rate. In this paper, we make the first known attempt to develop a distributed Newton's method, which is second-order and enjoys a quadratic convergence rate. However, due to interference in wireless networks, the Hessian matrix of the cross-layer problem has an non-separable structure. As a result, developing a distributed second-order algorithm is far more challenging than its counterpart for wireline networks. Our main results in this paper are two-fold: i) For a special network setting where all links mutually interfere, we derive decentralized closed-form expressions to compute the Hessian inverse; ii) For general wireless networks where the interference relationships are arbitrary, we propose a distributed iterative matrix splitting scheme for the Hessian inverse. These results successfully lead to a new theoretical framework for cross-layer optimization in wireless networks. More importantly, our work contributes to an exciting second-order paradigm shift in wireless networks optimization theory.

Keywords

Cite

@article{arxiv.1208.6308,
  title  = {Distributed Cross-Layer Optimization in Wireless Networks: A Second-Order Approach},
  author = {Jia Liu and Cathy H. Xia and Ness B. Shroff and Hanif D. Sherali},
  journal= {arXiv preprint arXiv:1208.6308},
  year   = {2016}
}

Comments

This paper is going to appear in IEEE INFOCOM 2013, Turin, Italy

R2 v1 2026-06-21T21:57:36.761Z