An Effective and Efficient Heuristic for N-Wait Flow Shop Production to Minimize Total Completion Time

Computers & Industrial Engineering, 108, June 2017, 57-69.

Posted: 27 May 2020

See all articles by Honghan Ye

Honghan Ye

affiliation not provided to SSRN

Wei (Mike) Li

University of Kentucky

Barrie R. Nault

University of Calgary - Haskayne School of Business

Date Written: November 4, 2016

Abstract

No-wait flow shop production has been widely applied in manufacturing. However, minimization of total completion time for no-wait flow shop production is NP-complete. Consequently, achieving good effectiveness and efficiency is a challenge in no-wait flow shop scheduling, where effectiveness means the deviation from optimal solutions and efficiency means the computational complexity or computation time. We propose a current and future idle time (CFI) constructive heuristic for no-wait flow shop scheduling to minimize total completion time. To improve effectiveness, we take current idle times and future idle times into consideration and use the insertion and neighborhood exchanging techniques. To improve efficiency, we introduce an objective increment method and determine the number of iterations to reduce the computation time. Compared with three recently developed heuristics, our CFI heuristic can achieve greater effectiveness in less computation time based on Taillard's benchmarks and 600 randomly generated instances. Moreover, using our CFI heuristic for operating room (OR) scheduling, we decrease the average patient flow times by 11.2% over historical ones in University of Kentucky Health Care (UKHC).

Keywords: computational complexity, heuristics, no-wait flow shop, total completion time.

Suggested Citation

Ye, Honghan and Li, Wei (Mike) and Nault, Barrie R., An Effective and Efficient Heuristic for N-Wait Flow Shop Production to Minimize Total Completion Time (November 4, 2016). Computers & Industrial Engineering, 108, June 2017, 57-69., Available at SSRN: https://ssrn.com/abstract=3581057

Honghan Ye

affiliation not provided to SSRN

Wei (Mike) Li

University of Kentucky ( email )

Lexington, KY 40506
United States

Barrie R. Nault (Contact Author)

University of Calgary - Haskayne School of Business ( email )

2500 University Drive, NW
Calgary, Alberta T2N 1N4
Canada

HOME PAGE: http://ucalgary.ca/bnault

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