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- Title
AN ITERATIVE APPROACH FOR ESTIMATING COMPONENT RELIABILITY FROM MASKED SYSTEM LIFE DATA.
- Authors
Usher, John S.; Guess, Frank M.
- Abstract
Life data from systems of components are often analysed to estimate the reliability of the individual components. These estimates are useful since they reflect the reliability of the components under actual operating conditions. However, owing to the cost or time involved with failure analysis, the exact component causing system failure may be unknown or 'masked'. That is, the cause may only be isolated to some subset of the system's components. We present an iterative approach for obtaining component reliability estimates from such data for series systems. The approach is analogous to traditional probability plotting. That is, it involves the fitting of a parametric reliability function to a set of non- parametric reliability estimates (plotting points). We present a numerical example assuming Weibull component life distributions and a two-component series system. In this example we find estimates with only 4 per cent of the computation time required to find comparable MLEs.
- Subjects
ELECTRONICS; ENGINEERING; TECHNOLOGY; RELIABILITY in engineering; ESTIMATION theory; PHYSICAL sciences
- Publication
Quality & Reliability Engineering International, 1989, Vol 5, Issue 4, p257
- ISSN
0748-8017
- Publication type
Article
- DOI
10.1002/qre.4680050403