This study deals with simple Constant Stress Partially Accelerated life test (CSPALT) using type-II censoring. The lifetime distribution of the test item is assumed to follow Rayleigh distribution. The Maximum Likelihood (ML) Estimation is used to estimate the distribution parameters and acceleration factor. Asymptotic confidence interval estimates of the model parameters are also evaluated by using Fisher information matrix. In the last a simulation study is performed to illustrate the statistical properties of the parameters
In this paper, failure step stress-partially accelerated life tests (FSS-PALT) are considered when t...
In this paper, the geometric process is introduced as a constant-stress accelerated model to analyze...
In this paper, step-stress partially accelerated life tests SSPALTare applied when the lifetime of a...
Modern reliability engineering accelerated life tests (ALT) and partially accelerated life tests (PA...
This study deals with simple Constant Stress Partially Accelerated life test (CSPALT) using type-I c...
In this paper, the point at issue of this paper is to deliberate point and interval estimations for ...
In this paper, the estimations of linear exponential distribution parameters and the acceleration fa...
In order to quantify the life characteristics of a product, partially accelerated life tests are use...
This paper considers the case of Constant-Stress Partially Accelerated Life Testing (CSPALT) when tw...
This paper deals with simple constant-stress Partially Accelerated Life Tests (PALT) with Type-II ce...
This article considers the problem of estimating the unknown parameters of the compound Rayleigh dis...
The constant-partially accelerated life tests (PALTs) model under progressive first-failure censorin...
The accelerated life tests provide quick information on the life time distributions by testing mater...
In this paper, the topic of step-stress partially accelerated life tests with progressive Type-II ce...
This article has been made available through the Brunel Open Access Publishing Fund.Constant-stress ...
In this paper, failure step stress-partially accelerated life tests (FSS-PALT) are considered when t...
In this paper, the geometric process is introduced as a constant-stress accelerated model to analyze...
In this paper, step-stress partially accelerated life tests SSPALTare applied when the lifetime of a...
Modern reliability engineering accelerated life tests (ALT) and partially accelerated life tests (PA...
This study deals with simple Constant Stress Partially Accelerated life test (CSPALT) using type-I c...
In this paper, the point at issue of this paper is to deliberate point and interval estimations for ...
In this paper, the estimations of linear exponential distribution parameters and the acceleration fa...
In order to quantify the life characteristics of a product, partially accelerated life tests are use...
This paper considers the case of Constant-Stress Partially Accelerated Life Testing (CSPALT) when tw...
This paper deals with simple constant-stress Partially Accelerated Life Tests (PALT) with Type-II ce...
This article considers the problem of estimating the unknown parameters of the compound Rayleigh dis...
The constant-partially accelerated life tests (PALTs) model under progressive first-failure censorin...
The accelerated life tests provide quick information on the life time distributions by testing mater...
In this paper, the topic of step-stress partially accelerated life tests with progressive Type-II ce...
This article has been made available through the Brunel Open Access Publishing Fund.Constant-stress ...
In this paper, failure step stress-partially accelerated life tests (FSS-PALT) are considered when t...
In this paper, the geometric process is introduced as a constant-stress accelerated model to analyze...
In this paper, step-stress partially accelerated life tests SSPALTare applied when the lifetime of a...