A Combinatorial Flow-based Formulation for Temporal Bin Packing Problems
Research output: Contribution to journal › Research article › Contributed › peer-review
Contributors
Abstract
We consider two neighboring generalizations of the classical bin packing problem: the temporal bin packing problem (TBPP) and the temporal bin packing problem with fire-ups (TBPP-FU). In both cases, the task is to arrange a set of given jobs, characterized by a resource consumption and an activity window, on homogeneous servers of limited capacity. To keep operational costs but also energy consumption low, TBPP is concerned with minimizing the number of servers in use, whereas TBPP-FU additionally takes into account the switch-on processes required for their operation. Either way, challenging integer optimization problems are obtained, which can differ significantly from each other despite the seemingly only marginal variation of the problems. In the literature, a branch-and-price method enriched with many preprocessing steps (for TBPP) and compact formulations (for TBPP-FU), benefiting from numerous reduction methods, have emerged as, currently, the most promising solution methods. In this paper, we introduce, in a sense, a unified solution framework for both problems (and, in fact, a wide variety of further interval scheduling applications) based on graph theory. Any scientific contributions in this direction failed so far because of the exponential size of the associated networks. The approach we present in this article does not change the theoretical exponentiality itself, but it can make it controllable by clever construction of the resulting graphs. In particular, for the first time all classical benchmark instances (and even larger ones) for the two problems can be solved – in times that significantly improve those of the previous approaches.
Details
Original language | English |
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Pages (from-to) | 554-574 |
Number of pages | 21 |
Journal | European Journal of Operational Research |
Volume | 307(2) |
Publication status | Published - 2023 |
Peer-reviewed | Yes |
External IDs
Scopus | 85143488130 |
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Mendeley | 65eddaa8-8777-31e3-8f13-0d4334d56423 |
dblp | journals/eor/MartinovicSCF23 |
ORCID | /0000-0003-0953-3367/work/142244067 |
Keywords
Sustainable Development Goals
ASJC Scopus subject areas
Keywords
- Combinatorial optimization, Fire ups, Flow formulation, Interval scheduling, Temporal bin packing