Fixed-Dimensional Stochastic Dynamic Programs: An Approximation Scheme and an Inventory Application

OPER: Analytical (Topic) Pub Date : 2012-12-22 DOI:10.2139/ssrn.2193021

Wei Chen, Milind Dawande, G. Janakiraman

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引用次数: 28

Abstract

We study fixed-dimensional stochastic dynamic programs in a discrete setting over a finite horizon. Under the primary assumption that the cost-to-go functions are discrete L -convex, we propose a pseudo-polynomial time approximation scheme that solves this problem to within an arbitrary prespecified additive error of e > 0. The proposed approximation algorithm is a generalization of the explicit-enumeration algorithm and offers us full control in the trade-off between accuracy and running time. The main technique we develop for obtaining our scheme is approximation of a fixed-dimensional L -convex function on a bounded rectangular set, using only a selected number of points in its domain. Furthermore, we prove that the approximation function preserves L -convexity. Finally, to apply the approximate functions in a dynamic program, we bound the error propagation of the approximation. Our approximation scheme is illustrated on a well-known problem in inventory theory, the single-product problem with lost sales and lead times. We demonstrate the practical value of our scheme by implementing our approximation scheme and the explicit-enumeration algorithm on instances of this inventory problem.

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固定维随机动态规划:一种近似格式及其库存应用

我们研究了有限视界上离散环境下的定维随机动态规划。在初始假设代价函数是离散L -凸的情况下，我们提出了一个伪多项式时间逼近方案，该方案在任意预设的加性误差e > 0范围内解决了这一问题。所提出的近似算法是显式枚举算法的推广，在精度和运行时间之间提供了完全的控制。我们开发的获得我们格式的主要技术是在有界矩形集合上的固定维L -凸函数的近似，仅使用其定义域中选定的一些点。进一步证明了近似函数保持L -凸性。最后，为了将近似函数应用于动态规划，我们对近似的误差传播进行了定界。我们的近似方案说明了一个众所周知的问题，在库存理论，单产品问题的销售损失和交货时间。通过对该库存问题实例的逼近方案和显式枚举算法的实现，证明了该方案的实用价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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OPER: Analytical (Topic)

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