Competing Failure Modes

This example compares the competing failure mode calculations.

The data is from the Table 15.1 on page 383 in the book Statistical Methods for Reliability Data by Dr. Meeker and Dr. Escobar, John Wiley & Sons, 1998.

In the book, parameter $$\mu\,\!$$ and $$\sigma\,\!$$ are used for the Weibull distribution. They are defined by $$\mu = ln(\eta)\,\!$$ and $$\sigma = \frac{1}{\beta}\,\!$$. The results are:


 * For failure mode s, the log-likelihood value is -101.36.
 * For failure mode s, $$\mu_{s}\,\!$$ = 6.11 and its approximated 95% confidence interval are [5.27, 6.95].
 * For failure mode s, $$\sigma_{s}\,\!$$ = 1.49 and its approximated 95% confidence interval are [0.94, 2.36].
 * For failure mode w, the log-likelihood value is -47.16.
 * For failure mode w, $$\mu_{w}\,\!$$ = 5.83 and its approximated 95% confidence interval are [5.62, 6.04].
 * For failure mode w, $$\sigma_{s}\,\!$$ = 0.23 and its approximated 95% confidence interval are [0.12, 0.44].


 * The ML estimates and the variance covariance matrix for each failure mode are:




 * The 95% confidence intervals for the parameters of each failure mode are:




 * In terms of $$\mu\,\!$$ and $$\sigma\,\!$$, the results are:


 * For failure mode s, $$\mu_{s} = ln(\eta_{s})\,\!$$ = 6.11 and its approximated 95% confidence interval are [5.27, 6.95].
 * For failure mode s, $$\sigma_{s} = \frac{1}{\beta_{s}}\,\!$$ = 1.49 and its approximated 95% confidence interval are [0.94, 2.36].
 * For failure mode w, $$\mu_{w} = ln(\eta_{w})\,\!$$ = 5.83 and its approximated 95% confidence interval are [5.62, 6.04].
 * For failure mode w, $$\sigma_{s} = \frac{1}{\beta_{s}}\,\!$$ = 0.23 and its approximated 95% confidence interval are [0.12, 0.44].

The above results are exactly the same as the results in the book.