Towards Multi-tree Methods for Large-Scale Global Optimization

Muts, Pavlo; Nowak, Ivo

doi:10.1007/978-3-030-21803-4_50

Publisher DOI:	10.1007/978-3-030-21803-4_50
Title:	Towards Multi-tree Methods for Large-Scale Global Optimization
Language:	English
Authors:	Muts, Pavlo Nowak, Ivo
Editor:	An Le Thi, Hoai Le, Hoai Minh Pham-dinh, Tao
Keywords:	Decomposition method; Global optimization; Mixed-integer nonlinear programming
Issue Date:	15-Jun-2019
Publisher:	Springer
Book title:	Optimization of complex systems : theory, models, algorithms and applications
Journal or Series Name:	Advances in intelligent systems and computing
Volume:	991
Startpage:	498
Endpage:	506
Conference:	World Congress on Global Optimization 2019
Abstract:	© 2020, Springer Nature Switzerland AG. In this paper, we present a new multi-tree approach for solving large scale Global Optimization Problems (GOP), called DECOA (Decomposition-based Outer Approximation). DECOA is based on decomposing a GOP into sub-problems, which are coupled by linear constraints. It computes a solution by alternately solving sub- and master-problems using Branch-and-Bound (BB). Since DECOA does not use a single (global) BB-tree, it is called a multi-tree algorithm. After formulating a GOP as a block-separable MINLP, we describe how piecewise linear Outer Approximations (OA) can be computed by reformulating nonconvex functions as a Difference of Convex functions. This is followed by a description of the main- and sub-algorithms of DECOA, including a decomposition-based heuristic for finding solution candidates. Finally, we present preliminary results with MINLPs and conclusions.
URI:	http://hdl.handle.net/20.500.12738/11213
ISBN:	978-3-030-21803-4 978-3-030-21802-7
ISSN:	2194-5357
Review status:	This version was peer reviewed (peer review)
Institute:	Department Maschinenbau und Produktion Fakultät Technik und Informatik
Type:	Chapter/Article (Proceedings)
Appears in Collections:	Publications without full text