English

Time-Average Stochastic Optimization with Non-convex Decision Set and its Convergence

Optimization and Control 2015-01-29 v3

Abstract

This paper considers time-average stochastic optimization, where a time average decision vector, an average of decision vectors chosen in every time step from a time-varying (possibly non-convex) set, minimizes a convex objective function and satisfies convex constraints. This formulation has applications in networking and operations research. In general, time-average stochastic optimization can be solved by a Lyapunov optimization technique. This paper shows that the technique exhibits a transient phase and a steady state phase. When the problem has a unique vector of Lagrange multipliers, the convergence time can be improved. By starting the time average in the steady state the convergence times become O(1/ϵ)O(1/\epsilon) under a locally-polyhedral assumption and O(1/ϵ1.5)O(1/\epsilon^{1.5}) under a locally-non-polyhedral assumption, where ϵ\epsilon denotes the proximity to the optimal objective cost. Simulations suggest that the results may hold more generally without the unique Lagrange multiplier assumption.

Keywords

Cite

@article{arxiv.1412.4509,
  title  = {Time-Average Stochastic Optimization with Non-convex Decision Set and its Convergence},
  author = {Sucha Supittayapornpong and Michael J. Neely},
  journal= {arXiv preprint arXiv:1412.4509},
  year   = {2015}
}
R2 v1 2026-06-22T07:31:18.185Z