Modeling and analysis of performance degradation data for reliability assessment: A review
S Li, Z Chen, Q Liu, W Shi, K Li - IEEE Access, 2020 - ieeexplore.ieee.org
Reliability engineering plays an important role in the design, manufacture, maintenance,
and replacement of industrial products. Over the last few decades, accelerated degradation …
and replacement of industrial products. Over the last few decades, accelerated degradation …
Generalized exponential distribution: Existing results and some recent developments
RD Gupta, D Kundu - Journal of Statistical planning and inference, 2007 - Elsevier
Mudholkar and Srivastava [1993. Exponentiated Weibull family for analyzing bathtub failure
data. IEEE Trans. Reliability 42, 299–302] introduced three-parameter exponentiated …
data. IEEE Trans. Reliability 42, 299–302] introduced three-parameter exponentiated …
Estimation of R= P (Y< X) for three-parameter Weibull distribution
In this paper we consider the estimation of the stress–strength parameter R= P (Y< X), when
X and Y are independent and both are three-parameter Weibull distributions with the …
X and Y are independent and both are three-parameter Weibull distributions with the …
[PDF][PDF] Estimation of P [Y< X] for Weibull distributions
D Kundu, RD Gupta - IEEE Trans. Reliab., 2006 - academia.edu
This paper deals with the estimation of R= P [Y< X] when X and Y are two independent
Weibull distributions with different scale parameters but having the same shape parameter …
Weibull distributions with different scale parameters but having the same shape parameter …
A new exponential-type distribution with constant, decreasing, increasing, upside-down bathtub and bathtub-shaped failure rate function
AJ Lemonte - Computational Statistics & Data Analysis, 2013 - Elsevier
A new three-parameter exponential-type family of distributions which can be used in
modeling survival data, reliability problems and fatigue life studies is introduced. Its failure …
modeling survival data, reliability problems and fatigue life studies is introduced. Its failure …
Inferences on stress-strength reliability from Lindley distributions
DK Al-Mutairi, ME Ghitany, D Kundu - Communications in Statistics …, 2013 - Taylor & Francis
This article deals with the estimation of the stress-strength parameter R= P (Y< X) when X
and Y are independent Lindley random variables with different shape parameters. The …
and Y are independent Lindley random variables with different shape parameters. The …
Proportional reversed hazard rate model and its applications
RC Gupta, RD Gupta - Journal of statistical planning and inference, 2007 - Elsevier
The purpose of this paper is to study the structure and properties of the proportional
reversed hazard rate model (PRHRM) in contrast to the celebrated proportional hazard …
reversed hazard rate model (PRHRM) in contrast to the celebrated proportional hazard …
A new extended cosine—G distributions for lifetime studies
M Muhammad, RAR Bantan, L Liu, C Chesneau… - Mathematics, 2021 - mdpi.com
In this article, we introduce a new extended cosine family of distributions. Some important
mathematical and statistical properties are studied, including asymptotic results, a quantile …
mathematical and statistical properties are studied, including asymptotic results, a quantile …
Estimation of P [Y< X] for generalized Pareto distribution
S Rezaei, R Tahmasbi, M Mahmoodi - Journal of Statistical Planning and …, 2010 - Elsevier
This paper deals with the estimation of P [Y< X] when X and Y are two independent
generalized Pareto distributions with different parameters. The maximum likelihood …
generalized Pareto distributions with different parameters. The maximum likelihood …
Estimation of the reliability of a stress-strength system from power Lindley distributions
ME Ghitany, DK Al-Mutairi… - … in Statistics-Simulation …, 2015 - Taylor & Francis
In this paper, we are interested in the estimation of the reliability parameter R= P (X> Y)
where X, a component strength, and Y, a component stress, are independent power Lindley …
where X, a component strength, and Y, a component stress, are independent power Lindley …