arXiv:1810.04394 Abstract | arXiv Analytics

arXiv:1810.04394 [math.OC]Abstract References Reviews Resources

Mixed-Integer Programming Formulation of a Data-Driven Solver in Computational Elasticity

Published 2018-10-10Version 1

This paper presents a mixed-integer quadratic programming formulation of an existing data-driven approach to computational elasticity. This formulation is suitable for application of a standard mixed-integer programming solver, which finds a global optimal solution. Therefore, the results obtained by the presented method can be used as benchmark instances for any other algorithm. Preliminary numerical experiments are performed to compare quality of solutions obtained by the proposed method and a heuristic used in the data-driven computational mechanics.

Categories: math.OC

Keywords: mixed-integer programming formulation, computational elasticity, data-driven solver, data-driven computational mechanics, global optimal solution

Related articles: Most relevant | Search more

arXiv:1205.0856 [math.OC] (Published 2012-05-04)

Global Optimal Solution to Discrete Value Selection Problem with Inequality Constraints

Ning Ruan, David Yang Gao

arXiv:2010.09988 [math.OC] (Published 2020-10-20)

Transition path theory for Langevin dynamics on manifold: optimal control and data-driven solver

Yuan Gao, Tiejun Li, Xiaoguang Li, Jian-Guo Liu

arXiv:2208.12179 [math.OC] (Published 2022-08-25)

Distributed Optimization with Inexact Oracle

Kui Zhu, Yichen Zhang, Yutao Tang