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Approximate Dynamic Programming via a Smoothed Linear Program

Author(s)
Desai, Vijay V.; Farias, Vivek F.; Moallemi, Ciamac C.
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Abstract
We present a novel linear program for the approximation of the dynamic programming cost-to-go function in high-dimensional stochastic control problems. LP approaches to approximate DP have typically relied on a natural “projection” of a well-studied linear program for exact dynamic programming. Such programs restrict attention to approximations that are lower bounds to the optimal cost-to-go function. Our program—the “smoothed approximate linear program”—is distinct from such approaches and relaxes the restriction to lower bounding approximations in an appropriate fashion while remaining computationally tractable. Doing so appears to have several advantages: First, we demonstrate bounds on the quality of approximation to the optimal cost-to-go function afforded by our approach. These bounds are, in general, no worse than those available for extant LP approaches and for specific problem instances can be shown to be arbitrarily stronger. Second, experiments with our approach on a pair of challenging problems (the game of Tetris and a queueing network control problem) show that the approach outperforms the existing LP approach (which has previously been shown to be competitive with several ADP algorithms) by a substantial margin.
Date issued
2012-05
URI
http://hdl.handle.net/1721.1/75033
Department
Sloan School of Management
Journal
Operations Research
Publisher
Institute for Operations Research and the Management Sciences (INFORMS)
Citation
Desai, V. V., V. F. Farias, and C. C. Moallemi. “Approximate Dynamic Programming via a Smoothed Linear Program.” Operations Research 60.3 (2012): 655–674.
Version: Author's final manuscript

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