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Quantum algorithms for process parallel flexible job shop scheduling

Berend Denkena, Fritz Schinkel, Jonathan Pirnay, Sören Wilmsmeier

2021CIRP journal of manufacturing science and technology64 citationsDOIOpen Access PDF

Abstract

Flexible Job Shop Scheduling is one of the most difficult optimization problems known. In addition, modern production planning and control strategies require continuous and process-parallel optimization of machine allocation and processing sequences. Therefore, this paper presents a new method for process parallel Flexible Job Shop Scheduling using the concept of quantum computing based optimization. A scientific benchmark and the application to a realistic use-case demonstrates the good performance and practicability of this new approach. A managerial insight shows how the approach for process parallel flexible job shop scheduling can be integrated in existing production planning and control IT-infrastructure.

Topics & Concepts

Computer scienceScheduling (production processes)Flow shop schedulingJob shopJob shop schedulingBenchmark (surveying)Distributed computingIndustrial engineeringProduction planningDynamic priority schedulingTwo-level schedulingJob schedulerProcess (computing)Mathematical optimizationProduction (economics)EngineeringMathematicsEmbedded systemEconomicsProgramming languageRouting (electronic design automation)ScheduleMacroeconomicsOperating systemQueueGeodesyGeographyScheduling and Optimization AlgorithmsOptimization and Search ProblemsCloud Computing and Resource Management