Reliability optimization for load-sharing systems with exponentially distributed units

Qin Yuhan, Wang Kun, Hao Songhua
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Abstract

The load-sharing system is a class of redundant technology that allocate the total load to all surviving units, which can effectively improve the quality and reliability of the system. The units of the load-sharing system are dependent because of the load sharing mechanism, and the most popular load allocation strategy is equal load allocation strategy. However, the units of the load-sharing system are not always in the same reliability level, and equal load allocation strategy may not lead to the highest system reliability in this case. Confronted with this problem, this paper proposes a new load allocation strategy based on the practical lifetime characteristics of the units. The studied load-sharing system consists of two or three exponentially distributed units. Reliability models for these two kinds of systems are developed theoretically and numerically. Simulation results show that the proposed load-sharing strategy can greatly improve the system reliability.
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具有指数分布单元的负荷共享系统可靠性优化
负荷分担系统是一种将总负荷分配给所有幸存机组的冗余技术,可以有效地提高系统的质量和可靠性。由于负荷分担机制的存在,负荷分担系统各单元之间具有一定的依赖性,最常用的负荷分配策略是等负荷分配策略。然而,负荷分担系统的各单元并不总是处于相同的可靠性水平,在这种情况下,采用相等的负荷分配策略可能无法获得最高的系统可靠性。针对这一问题,本文提出了一种基于机组实际寿命特性的负荷分配策略。所研究的负荷分担系统由两个或三个指数分布单元组成。分别从理论和数值两方面建立了这两类系统的可靠性模型。仿真结果表明,所提出的负载共享策略可以大大提高系统的可靠性。
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