Inverse Power Law (IPL)-Lognormal Model: Difference between revisions

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::<math>\,\!\mu {}'=\beta _{0}+\beta _{1}\times ln\left ( V \right )</math>
::<math>\,\!\mu {}'=\beta _{0}+\beta _{1}\times ln\left ( V \right )</math>


where V is the voltage and its natural log transform is used in the above life stress relation.  
where ''V'' is the voltage and its natural log transform is used in the above life stress relation.  


This function can be written in the following way:
This function can be written in the following way:


::<math>\,\!</math>  
::<math>\,\!e^{\mu {}'}=e^{\alpha _{0}+\alpha _{1}log\left ( V \right )}</math>  


The above equation is the general log-linear model in ALTA. In ALTA, the coefficients are denoted by  .
The above equation is the general log-linear model in ALTA. In ALTA, the coefficients are denoted by  .
Line 108: Line 108:
In fact, the above model also can be expressed using the traditional IPL (inverse power law) model:
In fact, the above model also can be expressed using the traditional IPL (inverse power law) model:


::<math>\,\!</math>
::<math>\,\!e^{\mu {}'}=\frac{1}{K\cdot V^{n}}</math>
   
   
where <math>\,\!</math>  and <math>\,\!</math> .  
where <math>\,\!</math>  and <math>\,\!</math> .  

Revision as of 22:11, 10 June 2014

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ALTA_Reference_Examples

This example validates the IPL life stress relationship with a lognormal distribution.


Reference Case

The data set is from Example 19.10 on page 504 in book Statistical Methods for Reliability Data by Dr. Meeker and Dr. Escobar, John Wiley & Sons, 1998.


Data

A Mylar-Polyurethane Insulating structure was tested under several different voltage settings. The test data is given in the table shown next.

Time Failed (Hr) Voltage (kV)
15 219
16 219
36 219
50 219
55 219
95 219
122 219
129 219
625 219
700 219
49 157.1
99 157.1
154.5 157.1
180 157.1
291 157.1
447 157.1
510 157.1
600 157.1
1656 157.1
1721 157.1
188 122.4
297 122.4
405 122.4
744 122.4
1218 122.4
1340 122.4
1715 122.4
3382 122.4
606 100.3
1012 100.3
2520 100.3
2610 100.3
3988 100.3
4100 100.3
5025 100.3
6842 100.3


Result

The following function is used for the Ln-Mean [math]\displaystyle{ \,\!\mu {}' }[/math]:

[math]\displaystyle{ \,\!\mu {}'=\beta _{0}+\beta _{1}\times ln\left ( V \right ) }[/math]

where V is the voltage and its natural log transform is used in the above life stress relation.

This function can be written in the following way:

[math]\displaystyle{ \,\!e^{\mu {}'}=e^{\alpha _{0}+\alpha _{1}log\left ( V \right )} }[/math]

The above equation is the general log-linear model in ALTA. In ALTA, the coefficients are denoted by .

In fact, the above model also can be expressed using the traditional IPL (inverse power law) model:

[math]\displaystyle{ \,\!e^{\mu {}'}=\frac{1}{K\cdot V^{n}} }[/math]

where [math]\displaystyle{ \,\! }[/math] and [math]\displaystyle{ \,\! }[/math] .


In the book, the following results are provided:

  • ML estimations for the model parameters are: [math]\displaystyle{ \,\! }[/math] , [math]\displaystyle{ \,\! }[/math] and [math]\displaystyle{ \,\! }[/math] .
  • The standard deviation of each parameter are: [math]\displaystyle{ \,\! }[/math] , [math]\displaystyle{ \,\! }[/math] and [math]\displaystyle{ \,\! }[/math] . Therefore, their variances are: [math]\displaystyle{ \,\! }[/math] , [math]\displaystyle{ \,\! }[/math] , [math]\displaystyle{ \,\! }[/math] .
  • The log-likelihood value is -271.4.
  • The 95% two-sided confidence intervals are: for [math]\displaystyle{ \,\! }[/math] , it is [0.83, 1.32]; for [math]\displaystyle{ \,\! }[/math] it is [21.6, 33.4]; for [math]\displaystyle{ \,\! }[/math] , [math]\displaystyle{ \,\! }[/math] it is [-5.46, -3.11].


Results in ALTA

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