Exponential Size Neighborhoods for Makespan Minimization Scheduling

T. Brueggemann; J.L. Hurink; T. Vredeveld; G.J. Woeginger

doi:10.1002/nav.20485

Exponential Size Neighborhoods for Makespan Minimization Scheduling

T. Brueggemann, J.L. Hurink, T. Vredeveld^*, G.J. Woeginger

^*Corresponding author for this work

Quantitative Economics

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We investigate the quality of local search heuristics for the scheduling problem of minimizing the makespan on identical parallel machines. We study exponential size neighborhoods (whose size grows exponentially with the input length) that can be searched in polynomial time, and we derive worst-case approximation guarantees for the local optima of such neighborhoods. The so-called split neighborhood splits a feasible schedule into two layers, and then recombines the two layers by finding a perfect matching. We show that the makespan of every local optimum for split is at most a factor of 2 away from the globally optimal makespan. We then combine the split neighborhood with two neighborhoods from the literature. The combination of split with the jump neighborhood only marginally improves the approximation guarantee, whereas the combination with the lexicographic-jump neighborhood decreases the approximation guarantee from 2 to 3/2. (C) 2011 Wiley Periodicals, Inc. Naval Research Logistics 58: 795-803, 2011

Original language	English
Pages (from-to)	795-803
Number of pages	9
Journal	Naval Research Logistics
Volume	58
Issue number	8
DOIs	https://doi.org/10.1002/nav.20485
Publication status	Published - Dec 2011

Keywords

combinatorial optimization
local search
performance guarantee
LOCAL SEARCH
PERFORMANCE GUARANTEES
ALGORITHMS
ANOMALIES
BOUNDS

Access to Document

10.1002/nav.20485

Cite this

@article{55f4d288ad6d48e78ba502d22acf0db3,

title = "Exponential Size Neighborhoods for Makespan Minimization Scheduling",

abstract = "We investigate the quality of local search heuristics for the scheduling problem of minimizing the makespan on identical parallel machines. We study exponential size neighborhoods (whose size grows exponentially with the input length) that can be searched in polynomial time, and we derive worst-case approximation guarantees for the local optima of such neighborhoods. The so-called split neighborhood splits a feasible schedule into two layers, and then recombines the two layers by finding a perfect matching. We show that the makespan of every local optimum for split is at most a factor of 2 away from the globally optimal makespan. We then combine the split neighborhood with two neighborhoods from the literature. The combination of split with the jump neighborhood only marginally improves the approximation guarantee, whereas the combination with the lexicographic-jump neighborhood decreases the approximation guarantee from 2 to 3/2. (C) 2011 Wiley Periodicals, Inc. Naval Research Logistics 58: 795-803, 2011",

keywords = "combinatorial optimization, local search, performance guarantee, LOCAL SEARCH, PERFORMANCE GUARANTEES, ALGORITHMS, ANOMALIES, BOUNDS",

author = "T. Brueggemann and J.L. Hurink and T. Vredeveld and G.J. Woeginger",

year = "2011",

month = dec,

doi = "10.1002/nav.20485",

language = "English",

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journal = "Naval Research Logistics",

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T1 - Exponential Size Neighborhoods for Makespan Minimization Scheduling

AU - Brueggemann, T.

AU - Hurink, J.L.

AU - Vredeveld, T.

AU - Woeginger, G.J.

PY - 2011/12

Y1 - 2011/12

N2 - We investigate the quality of local search heuristics for the scheduling problem of minimizing the makespan on identical parallel machines. We study exponential size neighborhoods (whose size grows exponentially with the input length) that can be searched in polynomial time, and we derive worst-case approximation guarantees for the local optima of such neighborhoods. The so-called split neighborhood splits a feasible schedule into two layers, and then recombines the two layers by finding a perfect matching. We show that the makespan of every local optimum for split is at most a factor of 2 away from the globally optimal makespan. We then combine the split neighborhood with two neighborhoods from the literature. The combination of split with the jump neighborhood only marginally improves the approximation guarantee, whereas the combination with the lexicographic-jump neighborhood decreases the approximation guarantee from 2 to 3/2. (C) 2011 Wiley Periodicals, Inc. Naval Research Logistics 58: 795-803, 2011

AB - We investigate the quality of local search heuristics for the scheduling problem of minimizing the makespan on identical parallel machines. We study exponential size neighborhoods (whose size grows exponentially with the input length) that can be searched in polynomial time, and we derive worst-case approximation guarantees for the local optima of such neighborhoods. The so-called split neighborhood splits a feasible schedule into two layers, and then recombines the two layers by finding a perfect matching. We show that the makespan of every local optimum for split is at most a factor of 2 away from the globally optimal makespan. We then combine the split neighborhood with two neighborhoods from the literature. The combination of split with the jump neighborhood only marginally improves the approximation guarantee, whereas the combination with the lexicographic-jump neighborhood decreases the approximation guarantee from 2 to 3/2. (C) 2011 Wiley Periodicals, Inc. Naval Research Logistics 58: 795-803, 2011

KW - combinatorial optimization

KW - local search

KW - performance guarantee

KW - LOCAL SEARCH

KW - PERFORMANCE GUARANTEES

KW - ALGORITHMS

KW - ANOMALIES

KW - BOUNDS

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