多态网络可靠性评估:一种改进的状态空间分解算法及实验比较

Reliability evaluation of multistate networks: An improved algorithm using state-space decomposition and experimental comparison

IISE Transactions · 2017
被引 73 · 同刊同年前 4%
ABS 3

中文导读

提出一种改进的状态空间分解算法,用于精确评估多态网络可靠性,通过递归分解最小路径向量和优化启发式规则提高效率,实验表明优于现有方法。

Abstract

This article introduces an improved algorithm using State-Space Decomposition for exact reliability evaluation of multistate networks given all minimal path vectors (d-MPs for short). We make two main contributions to the area. First, during each recursive call for the decomposition process, we find that the set of d-MPs can be decomposed recursively, and only those qualified d-MPs from a previous set of unspecified states are needed. Second, an improved heuristic rule is proposed choose an appropriate d-MP to decompose each set of unspecified states. Then, efficiency investigations of the proposed algorithm are conducted using hypothetical networks by changing one of the following network parameters while fixing the others, namely, the number of components, the number of d-MPs, and the number of states for each component. Efficiency investigations on networks with known structures are also conducted. Based on the computational experiments, it is found that (i) the proposed algorithm is more efficient than existing algorithms using the state-space decomposition method; (ii) the proposed algorithm is more efficient than existing algorithms using the Recursive Sum of Disjoint Products method when the number of d-MPs is not too small; and (iii) the indirect approach incorporating the proposed algorithm is more efficient than existing direct approaches. Guidelines for choosing the appropriate algorithm are provided. In addition, an algorithm is developed for network reliability evaluation given all minimal cut vectors (d-MCs for short).

网络可靠性多态系统状态空间分解算法优化