摘要
针对很难甚至无法对钕铁硼氢爆系统进行精确建模以及氢爆过程内部合金粉碎程度无法在线测量等难题,应用解决复杂问题的ACP理论,提出建立钕铁硼氢爆过程的平行系统框架体系。在阐述了ACP理论基本内容和框架的基础上,构建与实际系统"等价"的钕铁硼氢爆人工系统,利用计算实验对人工系统进行评估,最后通过人工系统和实际系统的平行执行,不断在线调节钕铁硼氢爆过程的最佳工艺曲线,更合理地指导实际生产。
Aiming at the problems that the precise model of NdFeb hydrogen explosion system cannot be established and the internal allloy grinding degree of hydrogen explosion process cannot be measured online,the ACP theory, which was applied to solve complex problems,was employed to establish a parallel system framework of NdFeb hy- drogen explosion process system. Based on the basic content and framework of ACP theory,the NdFeb hydrogen ex- plosion artificial system was constructed,which was "equivalent" to actual system. Numbers of computational experi- ments has been carried out to evaluate the artificial system. Through the parallel execution of artificial system and actual system,online constantly adjusting the best process curve for the system,and guides the practical production more reasonably.
出处
《自动化与仪表》
2015年第3期10-13,共4页
Automation & Instrumentation
基金
国家自然科学基金项目(61064001)
关键词
ACP理论
钕铁硼氢爆系统
人工系统
计算实验
ACP theory
NdFeb hydrogen explosion system
artificial system
computational experiments
