摘要
提出基于随机线性空间均衡的复杂零件加工曲率优化,通过线性空间均衡算法对复杂零件进行空间最优组的计算,在最优组中随机选择中间组与最后组,在两组之间进行递归计算,从而得到最优均衡空间参数值,使曲率得到优化的过程。仿真试验表明,这种基于随机线性空间均衡的复杂零件加工曲率优化的过程能更好的提高零件加工的精密度,减少优化工期,更有效的提高产品的质量,与分片算法的优化更快速稳定,有效的为零件的加工提供更好的保障。
Based on random linear space balanced curvature optimization of complex parts processing, through the linear space equalization algorithm for the calculation of the optimal set of space, complex parts in the optimal set of random inter-mediate and final group, between the two groups of recursive calculation, so as to get the optimal equilibrium parameter space value, make the curvature was optimized process. Simulation test shows that this kind of complex parts processing based on random linear space equilibrium curvature optimization process can improve the precision of the parts processing, better reduce the optimization time, more effectively improve the quality of the product, and subdivision algorithm optimiza-tion is more rapid, steady and effective to provide better protection for the machining of the parts.
出处
《科技通报》
北大核心
2015年第12期128-130,共3页
Bulletin of Science and Technology
关键词
线性空间
随机性
空间均衡
曲率优化
linear space
randomness
space equilibrium
curvature optimization