Abstract : This study provides the basis for improving the utility of Mil-Hdbk- 217 for reliability prediction of spacecraft components and systems. The reliability performance histories of 300 satellite vehicles, which were launched between the early 1960's through Jan 84, were reviewed and analyzed during the course of the study. Analysis of over 2500 reports of malfunctios indicated strong evidence of a decreasing failure rate with time in orbit. The cause for the decreasing hazard was found to be traceable primarily to design and environmental causes. In general, however, it was found that current predictions overestimate the failure rate by at least a factor of two and that the excess of predicted over observed failures increases with time in orbit. Three methods are provided for spacecraft reliability prediction. In order to account for the decreasing hazard, two of the procedures use a Weibull model with parameters based upon similar spacecraft mission types. A third method uses modifications of Mil-Hdbk-217 procedures to account for the overestimation of failure rates which result when current procedures are used.
[1]
Edward S. Epstein,et al.
NOAA Satellite Programs
,
1984,
IEEE Transactions on Aerospace and Electronic Systems.
[2]
W. Graham,et al.
On-orbit spacecraft reliability
,
1978
.
[3]
Dimitri Kececioglu,et al.
Designing a Specified Reliability Directly into a Component
,
1964
.
[4]
A E Saari,et al.
Stress screening of electronic hardware
,
1982
.
[5]
Alfred Sir Pugsley,et al.
The safety of structures
,
1966
.
[6]
Edward N. Adams,et al.
Optimizing Preventive Service of Software Products
,
1984,
IBM J. Res. Dev..
[7]
A. R. Timmins,et al.
Failure rate analysis of Goddard Space Flight Center spacecraft performance during orbital life
,
1976
.
[8]
Charles F. Hall.
The Pioneer 10/11 Program: From 1969 to 1994
,
1983,
IEEE Transactions on Reliability.