Title :
Optimal design for a class of noncoherent systems
Author_Institution :
EG&G Idaho Nat. Eng. Lab., Idaho Falls, ID, USA
fDate :
8/1/1991 12:00:00 AM
Abstract :
The author addresses the optimization of (k-to-l)-out-of-n:G systems. A (k-to-l)-out-of-n:G system is a noncoherent system in which `no fewer than k and no more than l´ out of n units may function for the successful operation of the system. Examples of noncoherent systems are found in communication, multiprocessor and transportation systems. This class of noncoherent systems is very general and includes coherent systems, e.g. parallel, series, and N-modular redundancy, as special cases. There is an optimal system-size which maximizes the mean system profit. A numerical example illustrates the results
Keywords :
optimisation; reliability theory; N-modular redundancy; k-to-l-out-of n:G systems; noncoherent systems; optimization; parallel redundancy; series redundancy; Design engineering; Design optimization; Laboratories; Multiprocessing systems; Nuclear magnetic resonance; Power system modeling; Power system reliability; Reliability engineering; Reliability theory; Transportation;
Journal_Title :
Reliability, IEEE Transactions on
