Dynamic programs with shared resources and signals: dynamic fluid policies and asymptotic optimality.
Office of Alumni and External Relations 2021-11-05
Subject: Dynamic programs with shared resources and signals: dynamic fluid policies and asymptotic optimality.
Guest: Jingwei Zhang, PhD candidate, Duke University
Host: Cheng Hua, Associate Professor, Antai
Time: Friday, Nov 5, 2021, 19:00-20:30
Venue: A301, Antai & Tencent Meeting
We consider a sequential decision problem involving shared resources and signals in which a decision maker repeatedly observes some exogenous information (the signal), modeled as a finite-state Markov process, then allocates a limited amount of a shared resource across a set of projects. The framework includes a number of applications and generalizes Markovian multi-armed bandit problems by (a) incorporating exogenous information through the signal and (b) allowing for more general resource allocation decisions. Such problems are naturally formulated as stochastic dynamic programs (DPs) but solving the DP is impractical unless the number of projects is small. In this paper, we develop a Lagrangian relaxation and a DP formulation of the corresponding fluid relaxation --- a dynamic fluid relaxation --- that provide upper bounds on the optimal value function as well as a feasible policy. We develop an iterative primal-dual algorithm for solving the dynamic fluid relaxation and analyze the performance of the feasible dynamic fluid policy. Our performance analysis implies, under mild conditions, that the dynamic fluid relaxation bound and feasible policy are asymptotically optimal as the number of projects grows large. Our Lagrangian relaxation uses Lagrange multipliers that depend on the history of past signals in each period: we show that the bounds and analogous policies using restricted forms of Lagrange multipliers (e.g., only depending on the current signal state in each period) in general lead to a performance gap that is linear in the number of projects and thus are not asymptotically optimal in the regime of many projects. We demonstrate the model and results in two applications: (i) a dynamic capital budgeting problem and (ii) a multi-location inventory management problem with limited production capacity and demands that are correlated across locations by a changing market state.
Jingwei Zhang is a PhD candidate in Decision Sciences at Fuqua School of Business, Duke University, advised by Prof. David Brown. His research interests lie broadly in the areas of optimization, microeconomics, and dynamic programming. Before coming to Duke, he earned his bachelor degrees in applied math and in economics from National University of Singapore.
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