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orings.txt
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orings.txt
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Source: http://www1.ics.uci.edu/pub/machine-learning-databases/space-shuttle/
1. Title: Challenger Space Shuttle O-Ring Data (2 databases)
2. Sources:
-- David Draper ([email protected])
University of California, Los Angeles
-- Donor: David Draper ([email protected])
-- Date: 5 August 1993
3. Past Usage:
1. Draper,~D. (1993). Assessment and propagation of model uncertainty.
In {\it Proceedings of the Fourth International Workshop on Artificial
Intelligence and Statistics} (pp. 497--509). Ft. Lauderdale, FL:
Unpublished.
-- Discrete model uncertainty analysis
-- Analysis suggests that obvious different extrapolations of the
data exist at 31 degrees Fahrenheit (i.e., freezing), which sharply
discredits the assumption of no temperature effect.
2. Dalal,~S.~R., Fowlkes,~E.~B., \& Hoadley,~B. (1989). Risk analysis of
the space shuttle: pre-Challenger prediction of failure. {\it Journal
of the American Statisticians Association}, {\it 84}, 945--957.
3. Lavine,~M. (1991). Problems in extrapolation illustrated with space
shuttle O-ring data. {\it Journal of the American Statisticians
Association}, {\it 86}, 919--922.
4. Martz~H.~F., \& Zimmer,~W.~J. (1992). The risk of catastrophic failure
of the solid rocket boosters on the space shuttle. {\it American
Statistics}, {\it 46}, 42--47.
4. Number of instances: 23 in each of two files
5. Relevant Information:
There are two databases: (both use the same set of 5 attributes)
1. Primary o-ring erosion and/or blowby
2. Primary o-ring erosion only
The two databases are identical except for the 2nd attribute of the
21st instance (confirmed by David Draper on 8/5/93).
Edited from (Draper, 1993):
The motivation for collecting this database was the explosion of the
USA Space Shuttle Challenger on 28 January, 1986. An investigation
ensued into the reliability of the shuttle's propulsion system. The
explosion was eventually traced to the failure of one of the three field
joints on one of the two solid booster rockets. Each of these six field
joints includes two O-rings, designated as primary and secondary, which
fail when phenomena called erosion and blowby both occur.
The night before the launch a decision had to be made regarding
launch safety. The discussion among engineers and managers leading to
this decision included concern that the probability of failure of the
O-rings depended on the temperature t at launch, which was forecase to
be 31 degrees F. There are strong engineering reasons based on the
composition of O-rings to support the judgment that failure
probability may rise monotonically as temperature drops. One other
variable, the pressure s at which safety testing for field join leaks
was performed, was available, but its relevance to the failure process
was unclear.
Draper's paper includes a menacing figure graphing the number of field
joints experiencing stress vs. liftoff temperature for the 23 shuttle
flights previous to the Challenger disaster. No previous liftoff
temperature was under 53 degrees F. Although tremendous extrapolation
must be done from the given data to assess risk at 31 degrees F, it
is obvious even to the layman "to foresee the unacceptably high risk
created by launching at 31 degrees F." For more information, see
Draper (1993) or the other previous analyses.
The task is to predict the number of O-rings that will experience
thermal distress for a given flight when the launch temperature is
below freezing.
6. Number of Attributes: 5
1. Number of O-rings at risk on a given flight
2. Number experiencing thermal distress
3. Launch temperature (degrees F)
4. Leak-check pressure (psi)
5. Temporal order of flight
7. Attribute Information: all values are positive integers