Intercell scheduling: A negotiation approach using multi-agent coalitions

Yunna Tian; Dongni Li; Dan Zheng; Yunde Jia

doi:10.1080/0305215X.2015.1128423

Intercell scheduling: A negotiation approach using multi-agent coalitions

Yunna Tian, Dongni Li^*, Dan Zheng, Yunde Jia

^*Corresponding author for this work

School of Computer Science and Technology

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

3 Citations (Scopus)

Abstract

Intercell scheduling problems arise as a result of intercell transfers in cellular manufacturing systems. Flexible intercell routes are considered in this article, and a coalition-based scheduling (CBS) approach using distributed multi-agent negotiation is developed. Taking advantage of the extended vision of the coalition agents, the global optimization is improved and the communication cost is reduced. The objective of the addressed problem is to minimize mean tardiness. Computational results show that, compared with the widely used combinatorial rules, CBS provides better performance not only in minimizing the objective, i.e. mean tardiness, but also in minimizing auxiliary measures such as maximum completion time, mean flow time and the ratio of tardy parts. Moreover, CBS is better than the existing intercell scheduling approach for the same problem with respect to the solution quality and computational costs.

Original language	English
Pages (from-to)	1721-1739
Number of pages	19
Journal	Engineering Optimization
Volume	48
Issue number	10
DOIs	https://doi.org/10.1080/0305215X.2015.1128423
Publication status	Published - 2 Oct 2016

Keywords

coalition
flexible routes
intercell scheduling
multi-agent

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10.1080/0305215X.2015.1128423

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title = "Intercell scheduling: A negotiation approach using multi-agent coalitions",

abstract = "Intercell scheduling problems arise as a result of intercell transfers in cellular manufacturing systems. Flexible intercell routes are considered in this article, and a coalition-based scheduling (CBS) approach using distributed multi-agent negotiation is developed. Taking advantage of the extended vision of the coalition agents, the global optimization is improved and the communication cost is reduced. The objective of the addressed problem is to minimize mean tardiness. Computational results show that, compared with the widely used combinatorial rules, CBS provides better performance not only in minimizing the objective, i.e. mean tardiness, but also in minimizing auxiliary measures such as maximum completion time, mean flow time and the ratio of tardy parts. Moreover, CBS is better than the existing intercell scheduling approach for the same problem with respect to the solution quality and computational costs.",

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T2 - A negotiation approach using multi-agent coalitions

AU - Tian, Yunna

AU - Li, Dongni

AU - Zheng, Dan

AU - Jia, Yunde

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AB - Intercell scheduling problems arise as a result of intercell transfers in cellular manufacturing systems. Flexible intercell routes are considered in this article, and a coalition-based scheduling (CBS) approach using distributed multi-agent negotiation is developed. Taking advantage of the extended vision of the coalition agents, the global optimization is improved and the communication cost is reduced. The objective of the addressed problem is to minimize mean tardiness. Computational results show that, compared with the widely used combinatorial rules, CBS provides better performance not only in minimizing the objective, i.e. mean tardiness, but also in minimizing auxiliary measures such as maximum completion time, mean flow time and the ratio of tardy parts. Moreover, CBS is better than the existing intercell scheduling approach for the same problem with respect to the solution quality and computational costs.

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Intercell scheduling: A negotiation approach using multi-agent coalitions

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