平面六杆机构的遗传算法平衡

JEMMME Journal of Energy Mechanical Material and Manufacturing Engineering Pub Date : 2021-04-20 DOI:10.30464/JMEE.2020.4.4.303

Basayya K. Belleri, S. B. Kerur

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引用次数: 1

摘要

本文研究了平面六杆机构的最优平衡，以使振动力和振动力矩的波动最小。通过建立目标函数，提出了平面六杆机构平衡的优化问题。采用遗传算法和MINITAB软件对优化问题进行求解。权重因子的选择对获得设计参数的最优值起着至关重要的作用。根据振动力和振动矩的X、Y分量的贡献，考虑两组权重因子。振动力和振动矩被大幅度地减小，并与原始值进行了比较。

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Balancing of planar six-bar mechanism with genetic algorithm

In the present work, the optimal balancing of the planar six-bar mechanism is investigated to minimize the fluctuations of shaking force and shaking moment. An optimization problem is formulated for balancing the planar six-bar mechanism by developing an objective function. The genetic algorithm and MINITAB software were used to solve the optimization problem. The selection of weighting factors has a crucial role to obtain the optimum values of design parameters. Two sets of weighting factors were considered as per the contribution of X and Y components of the shaking force and shaking moments. Shaking force and shaking moments were minimized drastically and were compared with the original values.

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来源期刊

JEMMME Journal of Energy Mechanical Material and Manufacturing Engineering

自引率

0.00%

发文量

审稿时长

8 weeks