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Edge computing-based real-time scheduling for digital twin flexible job shop with variable time window

Jin Wang, Yang Liu, Shan Ren, Chuang Wang, Shuaiyin Ma

2022Robotics and Computer-Integrated Manufacturing91 citationsDOIOpen Access PDF

Abstract

Production scheduling is the central link between enterprise production and operation management and is also the key to realising efficient, high-quality and sustainable production. However, in real-world manufacturing, the frequent occurrence of abnormal disturbance leads to the deviation of scheduling, which affects the accuracy and reliability of scheduling execution. The traditional dynamic scheduling methods (TDSMs) cannot solve this problem effectively. This paper presents a real-time digital twin flexible job shop scheduling (R-DTFJSS) method with edge computing to address the issue. Firstly, an overall framework of R-DTFJSS is proposed to realise real-time scheduling (RS) through real-time interaction between physical workshop (PW) and virtual workshop (VW). Secondly, the implementation process of R-DTFJSS is designed to realise real-time operation allocation. Then, to obtain the optimal RS result, an improved Hungarian algorithm (IHA) is adopted. Finally, a case simulation from an industrial case of a cooperative enterprise is described and analysed to verify the effectiveness of the proposed R-DTFJSS method. The results show that compared with the TDSMs, the R-DTFJSS method can effectively deal with unexpected and frequent abnormal disturbances in the production process.

Topics & Concepts

Computer scienceScheduling (production processes)Dynamic priority schedulingReal-time computingDistributed computingFair-share schedulingRate-monotonic schedulingTwo-level schedulingIndustrial engineeringMathematical optimizationEngineeringComputer networkQuality of serviceMathematicsScheduling and Optimization AlgorithmsDigital Transformation in IndustryFlexible and Reconfigurable Manufacturing Systems