Optimal Sampling Laws for Stochastically Constrained Simulation Optimization on Finite Sets

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TR Number

Date

2013

Journal Title

Journal ISSN

Volume Title

Publisher

INFORMS

Abstract

Consider the context of selecting an optimal system from among a finite set of competing systems, based on a "stochastic" objective function and subject to multiple "stochastic" constraints. In this context, we characterize the asymptotically optimal sample allocation that maximizes the rate at which the probability of false selection tends to zero. Since the optimal allocation is the result of a concave maximization problem, its solution is particularly easy to obtain in contexts where the underlying distributions are known or can be assumed. We provide a consistent estimator for the optimal allocation and a corresponding sequential algorithm fit for implementation. Various numerical examples demonstrate how the proposed allocation differs from competing algorithms.

Description

Keywords

Constrained simulation optimization, Optimal allocation, Ranking and, Selection, Systems

Citation

Susan R. Hunter and Raghu Pasupathy. Optimal Sampling Laws for Stochastically Constrained Simulation Optimization on Finite Sets. INFORMS Journal on Computing 2013 25:3, 527-542. doi: 10.1287/ijoc.1120.0519