现有的比例积分微分(PID)优化设计算法难以兼顾系统对快速性、稳定性和鲁棒性的要求。
The current Proportion Integration Differentiation (PID) optimization Design methods are often difficult to consider the system requirements for quickness, reliability and robustness.
该方法无须求解函数灵敏度,在保证拟合精度的前提下,能光滑响应并最大程度减少精确分析计算量,分析前翼子板回弹补偿优化设计实例,证明其具有很高的精度和鲁棒性。
The proposed method is used with FE simulations, and the example of spring-back compensation demonstrates that it is efficient, accurate and robust for auto panel forming process optimization.
所获得的结论具有普遍性,对设计和开发适用于大系统优化的快速鲁棒进化算法具有一定的参考价值。
The conclusions are general and it is desired to provide guidance for developing successful EAs' applications. This project is supported by National Natural Science Fo…
所获得的结论具有普遍性,对设计和开发适用于大系统优化的快速鲁棒进化算法具有一定的参考价值。
The conclusions are general and it is desired to provide guidance for developing successful EAs' applications. This project is supported by National Natural Science Fo…
应用推荐