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Competitive bi-agent flowshop scheduling to minimise the weighted combination of makespans

Danyu Bai, Ali Diabat, Xinyue Wang, Dandan Yang, Yao Fu, Zhihai Zhang, Chin‐Chia Wu

2021International Journal of Production Research23 citationsDOI

Abstract

Customer satisfaction is a prevalent issue amongst manufacturing enterprises. Multi-agent scheduling models aim to optimise the given criteria for improving customer satisfaction by fulfilling the customisation requirements. An investigation is executed on a bi-agent flowshop scheduling model, where a mass of tasks maintained by two competitive agents share a group of successive processors over time. The objective is to determine a feasible schedule that minimises the weighted combination of makespans belonging to two different agents. Asymptotic and worst-case analyses are conducted on a class of dominant-agent-based heuristics proposed to find approximate solutions for large-scale instances. An effective branch and bound algorithm is presented to achieve optimal solutions for small-scale instances, where the release-date-based branching rules and the preemption-based lower bounds significantly speed up the convergence of the proposed algorithm. A discrete artificial bee colony algorithm is introduced to find high-quality solutions for medium-scale instances. Extensive computational experiments are conducted to reveal the effectiveness of the proposed algorithms.

Topics & Concepts

HeuristicsComputer scienceMathematical optimizationScheduling (production processes)Job shop schedulingPreemptionScheduleMathematicsOperating systemScheduling and Optimization AlgorithmsAdvanced Manufacturing and Logistics OptimizationAssembly Line Balancing Optimization
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