An Inexact Primal-Dual Algorithm for Semi-Infinite Programming
Optimization and Control
2019-01-16 v2
Abstract
This paper considers an inexact primal-dual algorithm for semi-infinite programming (SIP) for which it provides general error bounds. To implement the dual variable update, we create a new prox function for nonnegative measures which turns out to be a generalization of the Kullback-Leibler divergence for probability distributions. We show that under suitable conditions on the error, this algorithm achieves an rate of convergence in terms of the optimality gap and constraint violation. We then use our general error bounds to analyze the convergence and sample complexity of a specific primal-dual SIP algorithm based on Monte Carlo integration. Finally, we provide numerical experiments to demonstrate the performance of our algorithm.
Cite
@article{arxiv.1803.10898,
title = {An Inexact Primal-Dual Algorithm for Semi-Infinite Programming},
author = {Bo Wei and William B. Haskell and Sixiang Zhao},
journal= {arXiv preprint arXiv:1803.10898},
year = {2019}
}