A Knowledge-Driven Memetic Algorithm for Energy-Aware Distributed Assembly Blocking Permutation Flow Shop Scheduling Problem

With the growing emphasis on sustainable manufacturing and efficient resource utilization, the distributed assembly blocking permutation flow shop scheduling problem (DABPFSP) has garnered increasing attention for its complexity and practical significance. To address the dual objectives of minimizin...

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Veröffentlicht in:	IEEE access S. 1
Hauptverfasser:	Wu, Shaoxing, Liu, Li
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	IEEE 2025
Schlagworte:	adaptive selection strategy Assembly Costs distributed assembly blocking permutation flow shop scheduling Energy consumption energy-aware scheduling Heuristic algorithms Indexes Job shop scheduling Knowledge-driven memetic algorithm Mathematical models Memetics Production facilities Sequential analysis
ISSN:	2169-3536, 2169-3536
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Abstract	With the growing emphasis on sustainable manufacturing and efficient resource utilization, the distributed assembly blocking permutation flow shop scheduling problem (DABPFSP) has garnered increasing attention for its complexity and practical significance. To address the dual objectives of minimizing makespan and total energy consumption, this study develops a Mixed-Integer Linear Programming (MILP) model and a Knowledge-Driven Memetic Algorithm (KDMA). The algorithm begins with a two-layer encoding scheme that simultaneously represents factory assignments, job processing sequences and processing speeds. To promote population diversity and search efficiency, three distinct initialization strategies are employed. During the evolutionary process, adaptive neighborhood selection strategy is integrated to enhance solution refinement. Furthermore, a customized energy saving operator is introduced to minimize redundant energy consumption. To comprehensively assess its performance, KDMA is tested on 54 instances that span various different combinations of jobs, machines, factories, and products. Comparative experiments with multiple state-of-the-art algorithms reveal that KDMA achieves superior performance in both solution quality and computational stability.
AbstractList	With the growing emphasis on sustainable manufacturing and efficient resource utilization, the distributed assembly blocking permutation flow shop scheduling problem (DABPFSP) has garnered increasing attention for its complexity and practical significance. To address the dual objectives of minimizing makespan and total energy consumption, this study develops a Mixed-Integer Linear Programming (MILP) model and a Knowledge-Driven Memetic Algorithm (KDMA). The algorithm begins with a two-layer encoding scheme that simultaneously represents factory assignments, job processing sequences and processing speeds. To promote population diversity and search efficiency, three distinct initialization strategies are employed. During the evolutionary process, adaptive neighborhood selection strategy is integrated to enhance solution refinement. Furthermore, a customized energy saving operator is introduced to minimize redundant energy consumption. To comprehensively assess its performance, KDMA is tested on 54 instances that span various different combinations of jobs, machines, factories, and products. Comparative experiments with multiple state-of-the-art algorithms reveal that KDMA achieves superior performance in both solution quality and computational stability.
Author	Wu, Shaoxing Liu, Li
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SubjectTerms	adaptive selection strategy Assembly Costs distributed assembly blocking permutation flow shop scheduling Energy consumption energy-aware scheduling Heuristic algorithms Indexes Job shop scheduling Knowledge-driven memetic algorithm Mathematical models Memetics Production facilities Sequential analysis
Title	A Knowledge-Driven Memetic Algorithm for Energy-Aware Distributed Assembly Blocking Permutation Flow Shop Scheduling Problem
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