Large Neighborhood Search and Adaptive Randomized Decompositions for Flexible Jobshop Scheduling

Dario Pacino; Pascal Van Hentenryck

Large Neighborhood Search and Adaptive Randomized Decompositions for Flexible Jobshop Scheduling

Dario Pacino, Pascal Van Hentenryck

Brown University

Publikation: Artikel i tidsskrift og konference artikel i tidsskrift › Konferenceartikel › Forskning › peer review

Abstract

This paper considers a constraint-based scheduling approach to the flexible jobshop, a generalization of the traditional jobshop scheduling where activities have a choice of machines. It studies both large neighborhood (LNS) and adaptive randomized de- composition (ARD) schemes, using random, temporal, and machine decompositions. Empirical results on standard benchmarks show that, within 5 minutes, both LNS and ARD produce many new best solutions and are about 0.5% in average from the best-known solutions. Moreover, over longer runtimes, they improve 60% of the best-known so- lutions and match the remaining ones. The empir- ical results also show the importance of hybrid de- compositions in LNS and ARD.

Originalsprog	Engelsk
Tidsskrift	IJCAI Proceedings - International Joint Conference on Artificial Intelligence
Antal sider	6
ISSN	1045-0823
Status	Udgivet - 2011

Emneord

constraint-based scheduling
flexible jobshop
large neighborhood search (LNS)
adaptive randomized decomposition (ARD)
hybrid decompositions

Adgang til dokumentet

http://www.aaai.org/ocs/index.php/IJCAI/IJCAI11/paper/view/3062

Citationsformater

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title = "Large Neighborhood Search and Adaptive Randomized Decompositions for Flexible Jobshop Scheduling",

abstract = "This paper considers a constraint-based scheduling approach to the flexible jobshop, a generalization of the traditional jobshop scheduling where activities have a choice of machines. It studies both large neighborhood (LNS) and adaptive randomized de- composition (ARD) schemes, using random, temporal, and machine decompositions. Empirical results on standard benchmarks show that, within 5 minutes, both LNS and ARD produce many new best solutions and are about 0.5% in average from the best-known solutions. Moreover, over longer runtimes, they improve 60% of the best-known so- lutions and match the remaining ones. The empir- ical results also show the importance of hybrid de- compositions in LNS and ARD.",

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year = "2011",

language = "English",

journal = "IJCAI Proceedings - International Joint Conference on Artificial Intelligence",

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TY - GEN

T1 - Large Neighborhood Search and Adaptive Randomized Decompositions for Flexible Jobshop Scheduling

AU - Pacino, Dario

AU - Van Hentenryck, Pascal

PY - 2011

Y1 - 2011

N2 - This paper considers a constraint-based scheduling approach to the flexible jobshop, a generalization of the traditional jobshop scheduling where activities have a choice of machines. It studies both large neighborhood (LNS) and adaptive randomized de- composition (ARD) schemes, using random, temporal, and machine decompositions. Empirical results on standard benchmarks show that, within 5 minutes, both LNS and ARD produce many new best solutions and are about 0.5% in average from the best-known solutions. Moreover, over longer runtimes, they improve 60% of the best-known so- lutions and match the remaining ones. The empir- ical results also show the importance of hybrid de- compositions in LNS and ARD.

AB - This paper considers a constraint-based scheduling approach to the flexible jobshop, a generalization of the traditional jobshop scheduling where activities have a choice of machines. It studies both large neighborhood (LNS) and adaptive randomized de- composition (ARD) schemes, using random, temporal, and machine decompositions. Empirical results on standard benchmarks show that, within 5 minutes, both LNS and ARD produce many new best solutions and are about 0.5% in average from the best-known solutions. Moreover, over longer runtimes, they improve 60% of the best-known so- lutions and match the remaining ones. The empir- ical results also show the importance of hybrid de- compositions in LNS and ARD.

KW - constraint-based scheduling

KW - flexible jobshop

KW - large neighborhood search (LNS)

KW - adaptive randomized decomposition (ARD)

KW - hybrid decompositions

KW - constraint-based scheduling

KW - flexible jobshop

KW - large neighborhood search (LNS)

KW - adaptive randomized decomposition (ARD)

KW - hybrid decompositions

M3 - Conference article

SN - 1045-0823

JO - IJCAI Proceedings - International Joint Conference on Artificial Intelligence

JF - IJCAI Proceedings - International Joint Conference on Artificial Intelligence

ER -

Large Neighborhood Search and Adaptive Randomized Decompositions for Flexible Jobshop Scheduling

Abstract

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