Title :
Reliability of a linear connected-(r,s)-out-of-(m,n):F lattice system
Author :
Yamamoto, H. ; Miyakawa, M.
Author_Institution :
Nishi-Tokyo Univ., Yamanishi, Japan
fDate :
6/1/1995 12:00:00 AM
Abstract :
A linear connected-(r,s)-out-of-(m,n):F lattice system has its components ordered like the elements of a (m,n)-matrix such that the system fails if all components in a connected (r,s)-submatrix fail. This paper proposes a recursive algorithm, named Yamamoto-Miyakawa (YM), for the system reliability. The YM algorithm requires O(sm-r·m2·r·n) computing time. Comparisons with the existing methods show its usefulness. We prove that the reliability of the large system tends to exp(-μ·λr·s) as n=μ·Mη-1, m→∞ if every component has failure probability λ·Mη(r·s/), where μ, λ, η are constant, μ>0, λ>0, η>s, or r/(r-1)>η>1
Keywords :
consecutive system reliability; linear systems; matrix algebra; probability; recursive functions; reliability theory; (m,n)-matrix; (r,s)-submatrix; Yamamoto-Miyakawa algorithm; failure probability; limit value; linear connected-(r,s)-out-of-(m,n):F lattice system; recursive algorithm; system reliability; Lattices; Polynomials; Reliability;
Journal_Title :
Reliability, IEEE Transactions on
