In this paper we propose a new lifetime distribution which can handle bathtub-shaped unimodal increasing and decreasing hazard rate functions The model has three parameters and generalizes the exponential power distribution proposed by Smith and Bain (1975) with the inclusion of an additional shape parameter The maximum likelihood estimation procedure is discussed A small-scale simulation study examines the performance of the likelihood ratio statistics under small and moderate sized samples Three real datasets Illustrate the methodology (C) 2010 Elsevier B V All rights reserve
This paper deals with a new two-parameter lifetime distribution with increasing, decreasing and cons...
A new class of lifetime distributions, which can exhibit with upside-down bathtub-shaped, bathtub-sh...
In this study, we introduce an extended version of the modified Weibull distribution with an additio...
In this paper we propose a new lifetime distribution which can handle bathtub-shaped unimodal increa...
The exponential power distribution (EP) is a lifetime model that can exhibit increasing and bathtub ...
In this paper, we propose a new flexible lifetime distribution. The proposed distribution will be re...
Modeling reliability data with nonmonotone hazards is a prominent research topic that is quite rich ...
In this article, a new family of lifetime distributions by adding an additional parameter to the exi...
In this paper, a flexible lifetime distribution with increasing, increasing and decreasing and modif...
Theoretical and applied researchers have been frequently interested in proposing alternative skewed ...
In this paper, a flexible lifetime distribution with increasing, decreasing and bathtub hazard rate ...
It is a common situation that the failure rate function has a bathtub shape for many mechanical and ...
A new lifetime distribution capable of modeling a bathtub-shaped hazard-rate function is proposed. T...
A new class of distributions with increasing, decreasing, bathtub-shaped and unimodal hazard rate fo...
We introduce a new lifetime distribution, called the alpha-power transformed Lomax (APTL) distributi...
This paper deals with a new two-parameter lifetime distribution with increasing, decreasing and cons...
A new class of lifetime distributions, which can exhibit with upside-down bathtub-shaped, bathtub-sh...
In this study, we introduce an extended version of the modified Weibull distribution with an additio...
In this paper we propose a new lifetime distribution which can handle bathtub-shaped unimodal increa...
The exponential power distribution (EP) is a lifetime model that can exhibit increasing and bathtub ...
In this paper, we propose a new flexible lifetime distribution. The proposed distribution will be re...
Modeling reliability data with nonmonotone hazards is a prominent research topic that is quite rich ...
In this article, a new family of lifetime distributions by adding an additional parameter to the exi...
In this paper, a flexible lifetime distribution with increasing, increasing and decreasing and modif...
Theoretical and applied researchers have been frequently interested in proposing alternative skewed ...
In this paper, a flexible lifetime distribution with increasing, decreasing and bathtub hazard rate ...
It is a common situation that the failure rate function has a bathtub shape for many mechanical and ...
A new lifetime distribution capable of modeling a bathtub-shaped hazard-rate function is proposed. T...
A new class of distributions with increasing, decreasing, bathtub-shaped and unimodal hazard rate fo...
We introduce a new lifetime distribution, called the alpha-power transformed Lomax (APTL) distributi...
This paper deals with a new two-parameter lifetime distribution with increasing, decreasing and cons...
A new class of lifetime distributions, which can exhibit with upside-down bathtub-shaped, bathtub-sh...
In this study, we introduce an extended version of the modified Weibull distribution with an additio...