The RELIABILITY Procedure
- Overview
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Getting Started
Analysis of Right-Censored Data from a Single PopulationWeibull Analysis Comparing Groups of DataAnalysis of Accelerated Life Test DataWeibull Analysis of Interval Data with Common Inspection ScheduleLognormal Analysis with Arbitrary CensoringRegression ModelingRegression Model with Nonconstant ScaleRegression Model with Two Independent VariablesWeibull Probability Plot for Two Combined Failure ModesAnalysis of Recurrence Data on RepairsComparison of Two Samples of Repair DataAnalysis of Interval Age Recurrence DataAnalysis of Binomial DataThree-Parameter WeibullParametric Model for Recurrent Events DataParametric Model for Interval Recurrent Events Data -
SyntaxPrimary StatementsSecondary StatementsGraphical Enhancement StatementsPROC RELIABILITY StatementANALYZE StatementBY StatementCLASS StatementDISTRIBUTION StatementEFFECTPLOT StatementESTIMATE StatementFMODE StatementFREQ StatementINSET StatementLOGSCALE StatementLSMEANS StatementLSMESTIMATE StatementMAKE StatementMCFPLOT StatementMODEL StatementNENTER StatementNLOPTIONS StatementPROBPLOT StatementRELATIONPLOT StatementSLICE StatementSTORE StatementTEST StatementUNITID Statement
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DetailsAbbreviations and NotationTypes of Lifetime DataProbability DistributionsProbability PlottingNonparametric Confidence Intervals for Cumulative Failure ProbabilitiesParameter Estimation and Confidence IntervalsRegression Model Statistics Computed for Each Observation for Lifetime DataRegression Model Statistics Computed for Each Observation for Recurrent Events DataRecurrence Data from Repairable SystemsODS Table NamesODS Graphics
- References
Weibull Analysis Comparing Groups of Data
This example illustrates probability plotting and distribution fitting for data grouped by the levels of a special group-variable. The data are from an accelerated life test of an insulating fluid and are the times to electrical breakdown of the fluid under different high voltage levels. Each voltage level defines a subset of data for which a separate analysis and Weibull plot are produced. These data are the 26kV, 30kV, 34kV, and 38kV groups of the data provided by Nelson (1990, p. 129). The following statements create a SAS data set containing the lifetimes and voltages:
data fluid; input Time voltage $ @@; datalines; 5.79 26kv 1579.52 26kv 2323.7 26kv 7.74 30kv 17.05 30kv 20.46 30kv 21.02 30kv 22.66 30kv 43.4 30kv 47.3 30kv 139.07 30kv 144.12 30kv 175.88 30kv 194.90 30kv 0.19 34kv .78 34kv 0.96 34kv 1.31 34kv 2.78 34kv 3.16 34kv 4.15 34kv 4.67 34kv 4.85 34kv 6.50 34kv 7.35 34kv 8.01 34kv 8.27 34kv 12.06 34kv 31.75 34kv 32.52 34kv 33.91 34kv 36.71 34kv 72.89 34kv .09 38kv 0.39 38kv .47 38kv 0.73 38kv .74 38kv 1.13 38kv 1.40 38kv 2.38 38kv ;
The variable Time provides the time to breakdown in minutes, and the variable Voltage provides the voltage level at which the test was conducted. These data are not censored.
The RELIABILITY procedure plots the data for the different voltage levels on the same Weibull probability plot, fits a separate distribution to the data at each voltage level, and superimposes distribution lines on the plot.
The following statements produce the probability plot shown in Figure 17.5 for the variable Time at each level of the group-variable Voltage:
proc reliability data=fluid;
distribution Weibull;
pplot time=voltage / overlay
noconf;
run;
The input data set FLUID is specified by the DATA= option in the PROC RELIABILITY statement. The PROBPLOT statement option OVERLAY specifies that plots for the groups are to be overlaid rather than displayed separately. The option NOCONF specifies that no confidence bands are to be plotted, since these can interfere with one another on overlaid plots; confidence bands are displayed by default.
Figure 17.5: Weibull Probability Plot for the Insulating Fluid Data
A summary table that contains information for all groups is displayed. In addition, information identical to that shown in Figure 17.3 is tabulated for each level of voltage. The summary table for all groups and the tables for the 26kV group are shown in Figure 17.6 and Figure 17.7.
Figure 17.6: Partial Listing of the Tabular Output for the Insulating Fluid Data
Figure 17.7: Partial Listing of the Tabular Output for the Insulating Fluid Data
| Weibull Parameter Estimates | |||||
|---|---|---|---|---|---|
| Parameter | Estimate | Standard Error |
Asymptotic Normal | Group | |
| 95% Confidence Limits | |||||
| Lower | Upper | ||||
| EV Location | 6.8625 | 1.1040 | 4.6986 | 9.0264 | 26kv |
| EV Scale | 1.8342 | 0.9611 | 0.6568 | 5.1226 | 26kv |
| Weibull Scale | 955.7467 | 1055.1862 | 109.7941 | 8319.6794 | 26kv |
| Weibull Shape | 0.5452 | 0.2857 | 0.1952 | 1.5226 | 26kv |
| Weibull Percentile Estimates | |||||
|---|---|---|---|---|---|
| Percent | Estimate | Standard Error |
Asymptotic Normal | Group | |
| 95% Confidence Limits | |||||
| Lower | Upper | ||||
| 0.1 | 0.00300636 | 0.02113841 | 3.11203E-9 | 2904.27046 | 26kv |
| 0.2 | 0.01072998 | 0.06838144 | 4.03597E-8 | 2852.65767 | 26kv |
| 0.5 | 0.0577713 | 0.31803193 | 1.19079E-6 | 2802.78862 | 26kv |
| 1 | 0.20695478 | 1.00385021 | 0.00001538 | 2784.16263 | 26kv |
| 2 | 0.74484901 | 3.12705686 | 0.00019885 | 2790.0941 | 26kv |
| 5 | 4.1142692 | 13.7388263 | 0.00591379 | 2862.3304 | 26kv |
| 10 | 15.406565 | 41.4763373 | 0.07873508 | 3014.69497 | 26kv |
| 20 | 61.0231127 | 125.020566 | 1.10053199 | 3383.65475 | 26kv |
| 30 | 144.246801 | 242.203982 | 5.36856883 | 3875.73303 | 26kv |
| 40 | 278.770459 | 398.048692 | 16.9761581 | 4577.77125 | 26kv |
| 50 | 487.954708 | 610.02855 | 42.0948552 | 5656.26835 | 26kv |
| 60 | 814.147288 | 920.537706 | 88.770543 | 7466.84412 | 26kv |
| 70 | 1343.42243 | 1433.97868 | 165.818889 | 10884.0666 | 26kv |
| 80 | 2287.87124 | 2445.52431 | 281.5628 | 18590.3635 | 26kv |
| 90 | 4412.96962 | 5148.34986 | 448.419608 | 43428.7452 | 26kv |
| 95 | 7150.89745 | 9248.2654 | 566.892142 | 90202.9338 | 26kv |
| 99 | 15735.8513 | 24666.0388 | 728.831025 | 339745.437 | 26kv |
| 99.9 | 33104.172 | 62018.1074 | 841.826189 | 1301796.28 | 26kv |