Provably Near-Optimal LP-Based Policies for Revenue Management in Systems with Reusable Resources
Author(s)
Levi, Retsef; Radovanovic, Ana
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Motivated by emerging applications in workforce management, we consider a class of revenue management problems in systems with reusable resources. The corresponding applications are modeled using the well-known loss network systems.
We use an extremely simple linear program (LP) that provides an upper bound on the best achievable expected long-run revenue rate. The optimal solution of the LP is used to devise a conceptually simple control policy that we call the class selection policy (CSP). Moreover, the LP is used to analyze the performance of the CSP policy. We obtain the _rst control policy with uniform performance guarantees. In particular, for the model with single resource and uniform resource requirements, the CSP policy is guaranteed to have expected long-run revenue rate that is at least half of the best achievable. More generally, as the ratio between the capacity of the system and the maximum resource requirement grows to in_nity, the CSP policy is asymptotically optimal, regardless of any other parameter of the problem. The asymptotic performance analysis that we obtain is more general than existing results in several important dimensions. It is based on several novel ideas that we believe will be useful in other settings.
Date issued
2008-02-07Publisher
Cambridge, MA; Alfred P. Sloan School of Management, Massachusetts Instititue of Technology
Series/Report no.
MIT Sloan School of Management Working Paper;4702-08
Keywords
Revenue Management, Linear Programming, Approximation Algorithms, Asymptotic Optimality