Genetic Bat Algorithm-Based Multi-Objective Selective Disassembly Sequence Planning

Zhi Gang Xu

doi:10.4028/p-Pw66IG

Paper Titles

Research on the Formation Mechanism for Formation Mechanism for Formation Mechanism for Micro-Damage of Alloy Blades of Wedge
p.27

Calculation and Analysis of Windproof Measures of Cable Trough Box of Roof Photovoltaic Engineering
p.37

Based on Transparent Soil Test to Carry out Research on the Soil Stability Discrimination under the Suffusion
p.43

Reconfiguration of Higher Education Teaching Buildings Based on Spatial Adaptability
p.51

Genetic Bat Algorithm-Based Multi-Objective Selective Disassembly Sequence Planning
p.59

Using Meyer Wavelet Method to Identify an Unknown Source in the Heat Equation
p.67

Study on the Construction of Ecological Control Technology Model Based on the Protection and Utilization of Coastal Landscape in the Bohai Bay Rim
p.75

Characterization of the Hydrodynamics of Fine Channel Erosion on Slopes
p.83

Formation Conditions and Distribution Law of Tight Oil in Fuyu Oil Layer, Sanzhao Area, Songliao Basin
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HomeEngineering HeadwayEngineering Headway Vol. 10Genetic Bat Algorithm-Based Multi-Objective...

Genetic Bat Algorithm-Based Multi-Objective Selective Disassembly Sequence Planning

Abstract:

The genetic bat algorithm is being actively investigated for its application in the complex multi-objective product selective disassembly sequence planning problem. To broaden the scope of the search space and enhance the overall search efficiency, the traditional bat algorithm has undergone discretization, incorporating a cross-mutation mechanism into the construction of the fitness function model. To assess the efficacy of this novel approach, an industrial mechanical arm is utilized as a representative case study. Upon comparison with the traditional bat algorithm, the proposed method exhibits shorter convergence times across a range of population sizes, thus validating its effectiveness.

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Periodical:

Engineering Headway (Volume 10)

Pages:

59-66

DOI:

https://doi.org/10.4028/p-Pw66IG

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Online since:

July 2024

Authors:

Zhi Gang Xu*

Keywords:

Bat Algorithm, Disassembly Hybrid Graph Model, Disassembly Sequence Planning, Genetic Algorithm

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* - Corresponding Author

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