Replication and sequencing of unreliable jobs on parallel machines

We consider the problem of sequencing m copies of unreliable jobs (i.e., jobs that have a certain probability of being successfully carried out) on m parallel machines (one copy per machine). A job is carried out if at least one of its copies is successfully completed. If the copy of a job fails, th...

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Published in	Computers & operations research Vol. 139; p. 105634
Main Authors	Agnetis, Alessandro, Benini, Mario, Detti, Paolo, Hermans, Ben, Pranzo, Marco
Format	Journal Article
Language	English
Published	New York Elsevier Ltd 01.03.2022 Pergamon Press Inc
Subjects	Heuristic methods Job shops Machine breakdown Mathematical programming NP-hardness Operations research Revenue Scheduling Sequences Unreliable jobs NP-hardness Unreliable jobs Scheduling Machine breakdown
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Abstract	We consider the problem of sequencing m copies of unreliable jobs (i.e., jobs that have a certain probability of being successfully carried out) on m parallel machines (one copy per machine). A job is carried out if at least one of its copies is successfully completed. If the copy of a job fails, the corresponding machine is blocked and cannot perform the subsequently scheduled job copies. We analyze two problems. In the first problem, each job has a certain revenue which is attained if the job is carried out, and the objective is to maximize the expected revenue. We show that for m=2 this problem is NP-hard. We propose a mathematical programming formulation and a metaheuristic approach, and we assess their computational behavior on a large set of instances. We also solve the problem for m machines and two jobs, showing that the marginal benefit of having an additional machine decreases with m. The second problem is to maximize the probability that all jobs are carried out. We show that the problem can be easily solved when m=2, as well as for m machines and two jobs. •We schedule unreliable jobs on parallel machines when job replication is allowed.•Complexity analysis, mathematical formulation, a heuristic and a combinatorial upper bound.•Assessment of the solution approaches through a thorough experimental campaign.
AbstractList	We consider the problem of sequencing m copies of unreliable jobs (i.e., jobs that have a certain probability of being successfully carried out) on m parallel machines (one copy per machine). A job is carried out if at least one of its copies is successfully completed. If the copy of a job fails, the corresponding machine is blocked and cannot perform the subsequently scheduled job copies. We analyze two problems. In the first problem, each job has a certain revenue which is attained if the job is carried out, and the objective is to maximize the expected revenue. We show that for m = 2 this problem is NP-hard. We propose a mathematical programming formulation and a metaheuristic approach, and we assess their computational behavior on a large set of instances. We also solve the problem for m machines and two jobs, showing that the marginal benefit of having an additional machine decreases with m. The second problem is to maximize the probability that all jobs are carried out. We show that the problem can be easily solved when m=2, as well as for m machines and two jobs. We consider the problem of sequencing m copies of unreliable jobs (i.e., jobs that have a certain probability of being successfully carried out) on m parallel machines (one copy per machine). A job is carried out if at least one of its copies is successfully completed. If the copy of a job fails, the corresponding machine is blocked and cannot perform the subsequently scheduled job copies. We analyze two problems. In the first problem, each job has a certain revenue which is attained if the job is carried out, and the objective is to maximize the expected revenue. We show that for m=2 this problem is NP-hard. We propose a mathematical programming formulation and a metaheuristic approach, and we assess their computational behavior on a large set of instances. We also solve the problem for m machines and two jobs, showing that the marginal benefit of having an additional machine decreases with m. The second problem is to maximize the probability that all jobs are carried out. We show that the problem can be easily solved when m=2, as well as for m machines and two jobs. •We schedule unreliable jobs on parallel machines when job replication is allowed.•Complexity analysis, mathematical formulation, a heuristic and a combinatorial upper bound.•Assessment of the solution approaches through a thorough experimental campaign.
ArticleNumber	105634
Author	Hermans, Ben Pranzo, Marco Benini, Mario Agnetis, Alessandro Detti, Paolo
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Keywords	NP-hardness Unreliable jobs Scheduling Machine breakdown
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References	Agnetis, Detti, Pranzo (b3) 2014; 165 Shabtay, Gaspar, Kaspi (b13) 2013; 16 Qi, Bard, Yu (b11) 2006; 103 Agnetis, Lidbetter, is (b5) 2020; 48 Benoit, Robert, Rosenberg, Vivien (b6) 2013; 53 Adiri, Bruno, Frostig, Rinnooy Kan (b1) 1989; 26 Frostig (b8) 1991; 5 Schmidt (b12) 2000; 121 Agnetis, Detti, Pranzo, Sodhi (b4) 2009; 12 Ng, Barketau, Cheng, Kovalyov (b10) 2010; 207 Burkard, Rudolf, Woeginger (b7) 1996; 65 Garey, Johnson (b9) 1979 Agnetis, Detti, Martineau (b2) 2017; 79 Stadje (b14) 1995; 63 Shabtay (10.1016/j.cor.2021.105634_b13) 2013; 16 Agnetis (10.1016/j.cor.2021.105634_b5) 2020; 48 Benoit (10.1016/j.cor.2021.105634_b6) 2013; 53 Frostig (10.1016/j.cor.2021.105634_b8) 1991; 5 Schmidt (10.1016/j.cor.2021.105634_b12) 2000; 121 Agnetis (10.1016/j.cor.2021.105634_b3) 2014; 165 Agnetis (10.1016/j.cor.2021.105634_b4) 2009; 12 Adiri (10.1016/j.cor.2021.105634_b1) 1989; 26 Burkard (10.1016/j.cor.2021.105634_b7) 1996; 65 Stadje (10.1016/j.cor.2021.105634_b14) 1995; 63 Garey (10.1016/j.cor.2021.105634_b9) 1979 Qi (10.1016/j.cor.2021.105634_b11) 2006; 103 Agnetis (10.1016/j.cor.2021.105634_b2) 2017; 79 Ng (10.1016/j.cor.2021.105634_b10) 2010; 207
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SubjectTerms	Heuristic methods Job shops Machine breakdown Mathematical programming NP-hardness Operations research Revenue Scheduling Sequences Unreliable jobs
Title	Replication and sequencing of unreliable jobs on parallel machines
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