Solving Flexible Job-Shop Scheduling Problems Based on Quantum Computing

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Bibliografische gegevens
Gepubliceerd in:	Entropy vol. 27, no. 2 (2025), p. 189
Hoofdauteur:	Fu, Kaihan
Andere auteurs:	Liu, Jianjun, Chen, Miao, Zhang, Huiying
Gepubliceerd in:	MDPI AG
Onderwerpen:	Scheduling Quantum computing Integer programming Computers Mathematical models Combinatorial analysis Optimization Flexibility Variables Manufacturers Ising model Linear programming Manufacturing Feedback Energy consumption Job shop scheduling
Online toegang:	Citation/Abstract Full Text + Graphics Full Text - PDF
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Omschrijving
Samenvatting:	Flexible job-shop scheduling problems (FJSPs) represent one of the most complex combinatorial optimization challenges. Modern production systems and control processes demand rapid decision-making in scheduling. To address this challenge, we propose a quantum computing approach for solving FJSPs. We propose a quadratic unconstrained binary optimization (QUBO) model to minimize the makespan of FJSPs, with the scheduling scheme encoded in the ground state of the Hamiltonian operator. The model is solved using a coherent Ising machine (CIM). Numerical experiments are conducted to evaluate and validate the performance and effectiveness of the CIM. The results demonstrate that quantum computing holds significant potential for solving FJSPs more efficiently than traditional computational methods.
ISSN:	1099-4300
DOI:	10.3390/e27020189
Bron:	Engineering Database