A Regularized Saddle-Point Algorithm for Networked Optimization with Resource Allocation Constraints
Abstract
We propose a regularized saddle-point algorithm for convex networked optimization problems with resource allocation constraints. Standard distributed gradient methods suffer from slow convergence and require excessive communication when applied to problems of this type. Our approach offers an alternative way to address these problems, and ensures that each iterative update step satisfies the resource allocation constraints. We derive step-size conditions under which the distributed algorithm converges geometrically to the regularized optimal value, and show how these conditions are affected by the underlying network topology. We illustrate our method on a robotic network application example where a group of mobile agents strive to maintain a moving target in the barycenter of their positions.
Cite
@article{arxiv.1208.1180,
title = {A Regularized Saddle-Point Algorithm for Networked Optimization with Resource Allocation Constraints},
author = {Andrea Simonetto and Tamas Keviczky and Mikael Johansson},
journal= {arXiv preprint arXiv:1208.1180},
year = {2012}
}
Comments
This is an extended version of a paper accepted for CDC 2012 with identical title