论文从装置硬件设计角度出发,采用容错与避错技术对高可靠性的微机保护装置设计进行了研究。
The thesis takes the research on design for the reliable microprocessor-based protection equipment using the technology of fault-tolerance and fault-avoidance.
电动助力转向(eps)系统的传感器故障将严重危害汽车的可靠性与安全性,研究EPS系统的容错控制技术具有重要的应用价值。
The sensor failure of electric power-steering (EPS) system damages vehicle reliability and safety seriously. The research of fault-tolerance control technology of EPS has important application value.
故障诊断与容错控制技术是提高动态系统的安全性、可靠性的重要途径之一。
Fault diagnosis and tolerant control technology is an important approach to improve the safety and reliability for dynamic systems.
在可靠性设计中采用容错技术、避错技术与诊断技术相结合、硬件措施与软件措施相结合的方法。
In the design of reliability, the method, that fault tolerance techniques are combined with fault avoidance and diagnosis ones, and hardware measures are combined with software ones, is adopted.
在可靠性设计中采用容错技术、避错技术与诊断技术相结合、硬件措施与软件措施相结合的方法。
In the design of reliability, the method, that fault tolerance techniques are combined with fault avoidance and diagnosis ones, and hardware measures are combined with software ones, is adopted.
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