Xiuli Wu scite author profile

search with a method that is inspired by the motion mechanism of the electrons around atomic nucleuses. Three novel algorithms are proposed and their effect on the whole search is discussed. The elitist strategy is adopted to prevent the optimal solution from being destroyed during the evolutionary process. The results show that the proposed algorithm outperforms the best-known algorithms for FJSPs on most of the FJSP benchmarks.

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The flexible job-shop scheduling problem considering deterioration effect and energy consumption simultaneously

Shen

2019

Computers & Industrial Engineering

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Multi-Objective Flexible Flow Shop Scheduling Problem Considering Variable Processing Time due to Renewable Energy

Shen

Cui

2018

Sustainability

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Abstract:Renewable energy is an alternative to non-renewable energy to reduce the carbon footprint of manufacturing systems. Finding out how to make an alternative energy-efficient scheduling solution when renewable and non-renewable energy drives production is of great importance. In this paper, a multi-objective flexible flow shop scheduling problem that considers variable processing time due to renewable energy (MFFSP-VPTRE) is studied. First, the optimization model of the MFFSP-VPTRE is formulated considering the periodicity of renewable energy and the limitations of energy storage capacity. Then, a hybrid non-dominated sorting genetic algorithm with variable local search (HNSGA-II) is proposed to solve the MFFSP-VPTRE. An operation and machine-based encoding method is employed. A low-carbon scheduling algorithm is presented. Besides the crossover and mutation, a variable local search is used to improve the offspring's Pareto set. The offspring and the parents are combined and those that dominate more are selected to continue evolving. Finally, two groups of experiments are carried out. The results show that the low-carbon scheduling algorithm can effectively reduce the carbon footprint under the premise of makespan optimization and the HNSGA-II outperforms the traditional NSGA-II and can solve the MFFSP-VPTRE effectively and efficiently.

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An improved differential evolution algorithm for solving a distributed assembly flexible job shop scheduling problem

Xiajing

Zhao

2018

Memetic Comp.

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Xiuli Wu

A green scheduling algorithm for flexible job shop with energy-saving measures

An elitist quantum-inspired evolutionary algorithm for the flexible job-shop scheduling problem

The flexible job-shop scheduling problem considering deterioration effect and energy consumption simultaneously

Multi-Objective Flexible Flow Shop Scheduling Problem Considering Variable Processing Time due to Renewable Energy

An improved differential evolution algorithm for solving a distributed assembly flexible job shop scheduling problem

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