Please use this identifier to cite or link to this item: http://hdl.handle.net/11718/26596
Title: An abstract model for branch and cut
Authors: Kazachkov, Aleksandr M.
Bodic, Pierre Le
Sankaranarayanan, Sriram
Keywords: Mathematical programming problems;Linear programming;Nonlinear programming;Branch and bound;Relaxation-tightening procedures;Computational experience;Theoretical explanations;Branching decisions;Cutting decisions;Real-world phenomena;Branch-and-cut experiments;Rounds of cuts;Nonmonotonic effects;Cutting planes
Issue Date: 30-Jun-2023
Publisher: Springer Link
Citation: Kazachkov, A. M., Bodic, P. L., & Sankaranarayanan, S. (2023). An abstract model for branch and cut. Mathematical Programming. https://doi.org/10.1007/s10107-023-01991-z
Abstract: Branch and cut is the dominant paradigm for solving a wide range of mathematical programming problems—linear or nonlinear—combining efficient search (via branch and bound) and relaxation-tightening procedures (via cutting planes, or cuts). While there is a wealth of computational experience behind existing cutting strategies, there is simultaneously a relative lack of theoretical explanations for these choices, and for the tradeoffs involved therein. Recent papers have explored abstract models for branching and for comparing cuts with branch and bound. However, to model practice, it is crucial to understand the impact of jointly considering branching and cutting decisions. In this paper, we provide a framework for analyzing how cuts affect the size of branch-and-cut trees, as well as their impact on solution time. Our abstract model captures some of the key characteristics of real-world phenomena in branch-and-cut experiments, regarding whether to generate cuts only at the root or throughout the tree, how many rounds of cuts to add before starting to branch, and why cuts seem to exhibit nonmonotonic effects on the solution process.
URI: http://hdl.handle.net/11718/26596
ISSN: 14364646
Appears in Collections:Open Access Journal Articles

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