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论述了以VC++为开发平台,采用基于专家系统的模糊诊断算法,通过对实际结果的数据采集和理论模型结果的模糊比对,给出《自动控制原理》实验装置实现自我诊断的机理和实现方法。通过该智能诊断系统的开发,能够在指导学生完成实验的同时,在装置发生故障时,还能让学生在系统的指导下,自行发现故障的位置,在提高学生动手能力的同时,也为排除故障奠定了基础,能够大幅度减小实验装置管理人员的工作量和劳动强度。
This paper discusses the VC ++ as the development platform and the fuzzy diagnosis algorithm based on the expert system. By means of fuzzy comparison of the actual result data collection and theoretical model results, the self-diagnosis mechanism and realization method of the “automatic control principle” experiment device are given. . Through the development of the intelligent diagnosis system, the students can guide the students to complete the experiment and at the same time, when the device fails, it can also make students find the fault location under the guidance of the system, and at the same time improve students’ abilities Failure laid the foundation, can greatly reduce the workload of experimental device managers and labor intensity.