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A Two-Workshop Collaborative, Integrated Scheduling Algorithm considering the Prescheduling of the Root-Subtree

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This study introduces an improved two-workshop scheduling algorithm. It effectively utilizes process tree characteristics and considers migration time for better scheduling results.

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Area of Science:

  • Manufacturing Engineering
  • Operations Research
  • Computer Science

Background:

  • Existing two-workshop integrated scheduling algorithms often use unified rules, neglecting process tree characteristics.
  • This oversight negatively impacts scheduling efficiency and accuracy.

Purpose of the Study:

  • To propose a novel two-workshop collaborative, integrated scheduling algorithm.
  • To enhance scheduling by considering Root-Subtree process prescheduling and process tree characteristics.

Main Methods:

  • Developed a collaborative algorithm incorporating prescheduling of Root-Subtree processes.
  • Introduced process conflict adjustment strategies for both horizontal and vertical constraints.
  • Integrated vertical and horizontal prescheduling within a single-workshop environment.

Main Results:

  • The algorithm effectively utilizes vertical and horizontal process tree characteristics.
  • It accurately determines processing workshops and start times, improving flexibility.
  • Consideration of process migration time enhances practical applicability.

Conclusions:

  • The proposed algorithm offers a more effective and practical approach to two-workshop integrated scheduling.
  • It outperforms existing methods by leveraging detailed process tree information.