Scheduling with uncertain durations: Modeling β-robust scheduling with constraints

Christine Wei Wu; Kenneth N. Brown; J. Christopher Beck

doi:10.1016/j.cor.2008.08.008

Scheduling with uncertain durations: Modeling β-robust scheduling with constraints

Christine Wei Wu
, Kenneth N. Brown
, J. Christopher Beck

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

Abstract

Many real-world scheduling problems are subject to change, and scheduling solutions should be robust to those changes. We consider a single-machine scheduling problem where the processing time of each activity is characterized by a normally distributed random variable, with flowtime as the main solution criterion. The objective is to find the β-robust schedule-the schedule that minimizes the risk of the flowtime exceeding a threshold. We show how to represent this problem as a constraint model, explicitly representing the uncertainty and robustness as input parameters and objectives, and enabling the uncertainty to propagate using constraint propagation. Specifically, we develop three models (primal, dual and hybrid), and we show the effect of dominance rules on the search space.

Original language	English
Pages (from-to)	2348-2356
Number of pages	9
Journal	Computers and Operations Research
Volume	36
Issue number	8
DOIs	https://doi.org/10.1016/j.cor.2008.08.008
Publication status	Published - Aug 2009

Keywords

Constraints
Robust optimization
Scheduling
Uncertainty

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10.1016/j.cor.2008.08.008

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title = "Scheduling with uncertain durations: Modeling β-robust scheduling with constraints",

abstract = "Many real-world scheduling problems are subject to change, and scheduling solutions should be robust to those changes. We consider a single-machine scheduling problem where the processing time of each activity is characterized by a normally distributed random variable, with flowtime as the main solution criterion. The objective is to find the β-robust schedule-the schedule that minimizes the risk of the flowtime exceeding a threshold. We show how to represent this problem as a constraint model, explicitly representing the uncertainty and robustness as input parameters and objectives, and enabling the uncertainty to propagate using constraint propagation. Specifically, we develop three models (primal, dual and hybrid), and we show the effect of dominance rules on the search space.",

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AB - Many real-world scheduling problems are subject to change, and scheduling solutions should be robust to those changes. We consider a single-machine scheduling problem where the processing time of each activity is characterized by a normally distributed random variable, with flowtime as the main solution criterion. The objective is to find the β-robust schedule-the schedule that minimizes the risk of the flowtime exceeding a threshold. We show how to represent this problem as a constraint model, explicitly representing the uncertainty and robustness as input parameters and objectives, and enabling the uncertainty to propagate using constraint propagation. Specifically, we develop three models (primal, dual and hybrid), and we show the effect of dominance rules on the search space.

KW - Constraints

KW - Robust optimization

KW - Scheduling

KW - Uncertainty

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EP - 2356

JO - Computers and Operations Research

JF - Computers and Operations Research

IS - 8

ER -

Scheduling with uncertain durations: Modeling β-robust scheduling with constraints

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Keywords

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