Title :
The mixed exponential failure process
Author :
McNolty, Frank ; Sherwood, William ; Mirra, Jean
Author_Institution :
Lockheed Missiles & Space Co. Inc., Palo Alto, CA, USA
Abstract :
The mixed exponential failure process is characterized by a time-dependent distribution from which the random hazard rate is obtained directly as an expected value rather than as the ratio of a failure distribution and the corresponding reliability. The properties of the time-dependent distribution are studied. Its mean, variance, and characteristic function (CF) are discussed, and it is shown that the random hazard rate is also expressible in terms of a singularity of the CF in the complex z-plane. Insight into the mixed process is obtained by constructing an electrical filtering analog involving bandpass and low-pass filters. The authors define a nonhomogeneous second-order differential equation for which the mixing distribution is a particular solution. Interdisciplinary applications of the mixing procedure are discussed in terms of photoresponsive detectors which yield generalized Laguerre-polynomial discrete distributions for the photoelectron count
Keywords :
differential equations; failure analysis; reliability; statistical analysis; bandpass; characteristic function; electrical filtering analog; failure distribution; generalized Laguerre-polynomial discrete distributions; low-pass filters; mean; mixed exponential failure process; mixing procedure; nonhomogeneous second-order differential equation; photoresponsive detectors; random hazard rate; reliability; singularity; statistical analysis; time-dependent distribution; variance; Band pass filters; Detectors; Differential equations; Distribution functions; Filtering theory; Frequency; H infinity control; Hazards; Low pass filters; Missiles;
Conference_Titel :
Reliability and Maintainability Symposium, 1991. Proceedings., Annual
Conference_Location :
Orlando, FL
Print_ISBN :
0-87942-661-6
DOI :
10.1109/ARMS.1991.154440
