摘要
为了减少皮革自动裁剪过程中的走刀时间,以空行程路径距离最短为优化目标构建了一个裁剪路径的数学优化模型,并采用分类优化算法对模型进行了求解,求解思路为:首先用坐标中心点最近原则确定样片外轮廓裁剪起始点集合,其次用改进蚁群算法优化样片裁剪顺序,最终获得空行程的最优路径.实验结果表明,该优化算法求解的空行程路径比优化前缩短了34.5%,由此表明该优化方法可显著提高皮革裁剪效率,具有良好的应用价值.
In order to reduce time in leather cutting process, a model was built based on the objective function of minimum null travel path length, and a classification optimization algorithm was applied to solve the model. The solution of the optimization algorithm is as follows: first all sample’s cutting point were determined by principle of nearest center point of coordinates, then the cutting sequence were determined by improved ant colony algorithm, finally a optimal null travel path was obtained. The results show that the distance of null travel path is shortened by 34.5% compared with that before optimization, thus the optimization method can significantly improve the leather cutting efficiency and has good application value.
作者
汪岚
陈海洋
WANG Lan;CHEN Haiyang(College of Mechanical and Electrical Engineering,Liming Vocational University,Quanzhou 362000,China)
出处
《延边大学学报(自然科学版)》
CAS
2021年第1期75-79,共5页
Journal of Yanbian University(Natural Science Edition)
基金
泉州市高层次人才创新创业项目(2019C045R)。
关键词
空行程路径
分类优化算法
坐标中心点
改进蚁群算法
null travel path
classification optimization algorithm
center point of coordinate
improved ant colony algorithm