引入重要度修正因子的复杂光电系统可靠性分配研究

Research on reliability allocation of complex electro-optical systems by introducing importance correction factors

  • 摘要: 以某新型复杂光电系统为研究对像,针对传统评分分配法客观性差、分配偏差大的缺点,构建重要度修正因子,提出了一种引入重要度修正因子的可靠性评分分配法。首先,运用模糊层次分析法,得到功能单元对上级功能单元/系统可靠性影响的相对重要度;然后,基于相对重要度,按照专家评分规则,得到功能单元对上级功能单元/系统可靠性影响的绝对重要度;最后,基于相对重要度和绝对重要度,构建功能单元重要度修正因子,以此修正各功能单元的评分结果。经对比验证,关重功能单元可靠性分配值较传统评分分配值至少提高6%,引入重要度修正因子的评分分配法能有效削弱传统评分分配法的主观影响,释放关重功能单元可靠性余量,提高功能单元可靠性分配的科学性、合理性,进而提高复杂系统可靠性设计水平。

     

    Abstract: Taking a new type of complex electro-optical system as the research object, in order to address the shortcomings of poor objectivity and large allocation deviation in traditional scoring allocation method, an importance correction factor was constructed, and a reliability scoring allocation method introducing importance correction factor was proposed. Firstly, the fuzzy analytic hierarchy process was used to obtain the relative importance of the impact of functional units on the reliability of superior functional unit or system. Then, based on the relative importance, the absolute importance of the impact of functional units on the reliability of superior functional unit or system was obtained according to expert scoring rules. Finally, based on the relative and absolute importance, a functional unit importance correction factor was constructed to correct the scoring results of each functional unit. After verification and comparison, the reliability allocation value of critical functional units is at least 6% higher than the traditional scoring allocation value, and the scoring allocation method introducing importance correction factor can effectively weaken the subjective impact of the traditional scoring allocation method, release the reliability margin of critical functional units, improve the scientificity and rationality of reliability allocation of functional units, and thereby improving the reliability design level of complex systems.

     

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