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Learning Linear Programs from Optimal Decisions
Yingcong Tan · Daria Terekhov · Andrew Delong

Wed Dec 09 08:10 AM -- 08:20 AM (PST) @ Orals & Spotlights: Kernel Methods/Optimization

We propose a flexible gradient-based framework for learning linear programs from optimal decisions. Linear programs are often specified by hand, using prior knowledge of relevant costs and constraints. In some applications, linear programs must instead be learned from observations of optimal decisions. Learning from optimal decisions is a particularly challenging bilevel problem, and much of the related inverse optimization literature is dedicated to special cases. We tackle the general problem, learning all parameters jointly while allowing flexible parameterizations of costs, constraints, and loss functions. We also address challenges specific to learning linear programs, such as empty feasible regions and non-unique optimal decisions. Experiments show that our method successfully learns synthetic linear programs and minimum-cost multi-commodity flow instances for which previous methods are not directly applicable. We also provide a fast batch-mode PyTorch implementation of the homogeneous interior point algorithm, which supports gradients by implicit differentiation or backpropagation.

Author Information

Yingcong Tan (Concordia University)
Daria Terekhov (Concordia University)
Andrew Delong (Concordia University)

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