Sciweavers

SIAMJO
2002

The Sample Average Approximation Method for Stochastic Discrete Optimization

13 years 11 months ago
The Sample Average Approximation Method for Stochastic Discrete Optimization
In this paper we study a Monte Carlo simulation based approach to stochastic discrete optimization problems. The basic idea of such methods is that a random sample is generated and consequently the expected value function is approximated by the corresponding sample average function. The obtained sample average optimization problem is solved, and the procedure is repeated several times until a stopping criterion is satisfied. We discuss convergence rates and stopping rules of this procedure and present a numerical example of the stochastic knapsack problem. Key words. Stochastic programming, discrete optimization, Monte Carlo sampling, Law of Large Numbers, Large Deviations theory, sample average approximation, stopping rules, stochastic knapsack problem AMS subject classifications. 90C10, 90C15
Anton J. Kleywegt, Alexander Shapiro, Tito Homem-d
Added 23 Dec 2010
Updated 23 Dec 2010
Type Journal
Year 2002
Where SIAMJO
Authors Anton J. Kleywegt, Alexander Shapiro, Tito Homem-de-Mello
Comments (0)