This study deals with the utilization of Generalized Exponential geometric process model for the analysis of accelerated life testing under constant stress using type-I censored data. Assuming that the lifetimes of units under increasing stress levels form a geometric process, the maximum likelihood estimation approach is used for the estimation of parameters and acceleration factor. The confidence intervals (CIs) of the model parameters are derived. The simulation study is conducted to evaluate the performance of the estimators with different pre-fixed parameters
[[abstract]]With today's high technology, many products last so long that life testing at usual cond...
This study deals with simple Constant Stress Partially Accelerated life test (CSPALT) using type-I c...
Modern reliability engineering accelerated life tests (ALT) and partially accelerated life tests (PA...
In this paper, the geometric process is introduced as a constant-stress accelerated model to analyze...
Abstract: In this paper the geometric process is used for the analysis of accelerated life testing f...
Abstract — In this paper the geometric process is used for the analysis of accelerated life testing ...
In accelerated life testing researcher generally use a life stress relationship between life charact...
In this article, we present the parameter inference in step-stress accelerated life tests under the ...
The problem of testing the product units under stress higher than normal stress conditions is widely...
[[abstract]]Accelerated life testing of products is used to get information quickly on their lifetim...
In this article, the tampered failure rate model is used in partially accelerated life testing. A no...
The step-stress accelerated life tests allow the experimenter to increase the stress levels at fixed...
Efficient industrial experiments for reliability analysis of manufactured products consist of subjec...
unrestricted use, distribution, and reproduction in any medium, provided the original work is proper...
Accelerated life tests have become increasingly important because of highercustomer expectations for...
[[abstract]]With today's high technology, many products last so long that life testing at usual cond...
This study deals with simple Constant Stress Partially Accelerated life test (CSPALT) using type-I c...
Modern reliability engineering accelerated life tests (ALT) and partially accelerated life tests (PA...
In this paper, the geometric process is introduced as a constant-stress accelerated model to analyze...
Abstract: In this paper the geometric process is used for the analysis of accelerated life testing f...
Abstract — In this paper the geometric process is used for the analysis of accelerated life testing ...
In accelerated life testing researcher generally use a life stress relationship between life charact...
In this article, we present the parameter inference in step-stress accelerated life tests under the ...
The problem of testing the product units under stress higher than normal stress conditions is widely...
[[abstract]]Accelerated life testing of products is used to get information quickly on their lifetim...
In this article, the tampered failure rate model is used in partially accelerated life testing. A no...
The step-stress accelerated life tests allow the experimenter to increase the stress levels at fixed...
Efficient industrial experiments for reliability analysis of manufactured products consist of subjec...
unrestricted use, distribution, and reproduction in any medium, provided the original work is proper...
Accelerated life tests have become increasingly important because of highercustomer expectations for...
[[abstract]]With today's high technology, many products last so long that life testing at usual cond...
This study deals with simple Constant Stress Partially Accelerated life test (CSPALT) using type-I c...
Modern reliability engineering accelerated life tests (ALT) and partially accelerated life tests (PA...