Title :
A load-capacity interference model for common-mode failures in 1-out-of-2: G systems
Author_Institution :
Dept. of Mech. Eng., Northwestern Univ., Evanston, IL, USA
fDate :
3/1/2001 12:00:00 AM
Abstract :
Load-capacity (stress-strength) interference theory is used to model the time-dependent behavior of a 1-out-of-2: G redundant system and to examine common-mode failures. For single units subjected to Poisson distributed load arrivals, the random failures, infant mortality, and aging are associated with load variability, capacity variability, and capacity deterioration, respectively. This paper extends the analysis to a redundant system by using a Markov model to treat Poisson distributed loads arriving at units simultaneously. Loss of s-independence of the unit failures is analyzed with joint PDFs of load and capacity. In the rare-event approximation, the degree of redundancy loss is characterized by expressing the coefficient in the beta-factor method in terms of the load and capacity distributions
Keywords :
Markov processes; Poisson distribution; consecutive system reliability; failure analysis; probability; redundancy; 1-out-of-2: G systems; Markov model; Poisson distributed load arrivals; Poisson distributed loads; aging; beta-factor method; capacity deterioration; capacity variability; common-mode failures; infant mortality; load variability; load-capacity interference model; load-capacity interference theory; random failures; rare-event approximation; redundancy loss; s-independence loss; stress-strength interference theory; time-dependent behavior modelling; Aging; Capacity planning; Failure analysis; Interference; Load modeling; Mechanical engineering; Redundancy; Reliability engineering; Stress;
Journal_Title :
Reliability, IEEE Transactions on
