System Availability and Optimum Spare Units

Author

Sasaki, Masafumi ; Kaburaki, Shigeru ; Yanagi, Shigeru

Author_Institution

Dept of Electrical Engineering; The National Defense Academy; Hashirimizu, Yokosuka 239 JAPAN.

Issue

3

fYear

1977

Firstpage

182

Lastpage

188

Abstract

The steady-state availability of a repairable system with cold standbys and nonzero replacement time is maximized under constraints of total cost and total weight. Likewise the cost can be minimized under constraints of steady-state availability and total weight. A new, more efficient algorithm is used for the constrained optimization. The problem is formulated as a nonlinear integer programming problem. Since the objective functions are monotone, it is easy to obtain optimal solutions. These new algorithms are natural extensions of the Lawler-Bell algorithm. Availability is adjusted by the number of spares allowed. Other measures of system goodness are considered, viz, failure rate, weight, price, mean repair time, mean repair cost, mean replacement time, and mean replacement cost of a unit.

Keywords

Availability; Constraint optimization; Constraint theory; Cost function; Linear programming; Maintenance engineering; Redundancy; Reliability engineering; Reliability theory; Steady-state; Constrained optimization; New Lawler-Bell algorithm; Optimal allocation; Redundancy; Repairable system; Spare units; System availability; Total cost; Total weight;

fLanguage

English

Journal_Title

Reliability, IEEE Transactions on

Publisher

ieee

ISSN

0018-9529

Type

jour

DOI

10.1109/TR.1977.5220110

Filename

5220110