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Proactive Scheduling and Reactive Real-Time Control in Industry 4.0

In: Scheduling in Industry 4.0 and Cloud Manufacturing

Author

Listed:
  • Dmitry Ivanov

    (Berlin School of Economics and Law)

  • Boris Sokolov

    (Saint Petersburg Institute for Informatics and Automation of the RAS (SPIIRAS))

  • Frank Werner

    (Otto-von-Guericke University Magdeburg)

  • Alexandre Dolgui

    (IMT Atlantique, LS2N—CNRS, La Chantrerie)

Abstract

Scheduling in Industry 4.0 systems belongs to a class of problems that have mixed structural-temporal-logical constraints. In other words, a strong coupling is considered when product and process are created simultaneously. As a result of the proven NP-hardness of such problems, solution methods have extensively utilized different decomposition principles. The known decomposition methods in discrete optimization are founded on the difficulties in deriving analytical properties. The existing solutions in continuous optimization are based on the maximum principle and yield a dynamic process decomposition using the natural logic of time. By combining the advantages of continuous and discrete optimization, this chapter develops a decomposition method for shop floor scheduling in Industry 4.0 manufacturing systems. Technically, this study proposes to decompose dynamically the large-scale assignment matrix according to the precedence relations between the operations of the jobs and considers only the operations that satisfy these precedence relations at a given time point in small-dimensional, discrete optimization models. Continuous optimization is used to generate a schedule from the assignments found in the discrete optimization models at each time point by extremizing the Hamiltonian function at this time point subject to scheduling objective(s). In addition, the execution of the operations in time can be accurately modeled in continuous time as a continuous state variable; the machine availability and capacity disturbances at the machines are also considered. The method developed provides further insights into decomposition methods for scheduling and is supported by an analytical analysis and an algorithmic realization.

Suggested Citation

  • Dmitry Ivanov & Boris Sokolov & Frank Werner & Alexandre Dolgui, 2020. "Proactive Scheduling and Reactive Real-Time Control in Industry 4.0," International Series in Operations Research & Management Science, in: Boris Sokolov & Dmitry Ivanov & Alexandre Dolgui (ed.), Scheduling in Industry 4.0 and Cloud Manufacturing, chapter 0, pages 11-37, Springer.
  • Handle: RePEc:spr:isochp:978-3-030-43177-8_2
    DOI: 10.1007/978-3-030-43177-8_2
    as

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