Abstract: In this paper, we introduce a new three-parameter distribution by compounding the Nadarajah-Haghighi and geometric distributions, which can be interpreted as a truncated Marshall-Olkin extended Weibull. The compounding procedure is based on the work by Marshall and Olkin 1997. We prove that the new distribution can be obtained as a compound model with mixing exponential distribution. It can have decreasing, increasing, upside-down bathtub, bathtub-shaped, constant and decreasing-increasing-decreasing failure rate functions depending on the values of the parameters. Some mathematical properties of the new distribution are studied including moments and quantile function. The maximum likelihood estimation procedure is discussed and a...
In this paper, we shall attempt to extend the generalized exponential geometric distribution of Silv...
Abstract: We define a new lifetime model based on compounding the Lindley and Nadarajah-Haghighi dis...
In this paper two probability distributions are introduced compounding inverse Weibull distribution ...
Abstract: In this paper, we introduce a new three-parameter distribution by compounding the Nadaraja...
We propose a new four-parameter lifetime distribution obtained by compounding twouseful distribution...
A new class of lifetime distributions, which can exhibit with upside-down bathtub-shaped, bathtub-sh...
A new three-parameter life parametric model called the Marshall-Olkin generalized Weibull is defined...
© 2014 Sapienza Università di Roma. A new class of lifetime distributions is introduced by compoundi...
A new two parameter life time model, which accommodates increasing, decreasing, bathtub, and a broad...
Bathtub failure rate shape is widely used in industrial and medical applications. In this paper, a t...
We introduce a new four-parameter distribution with constant, decreasing, increasing, bathtub and up...
In this paper, we propose a new lifetime distribution. We discuss several mathematical properties of...
A four parameter generalization of the Weibull distribution capable of modeling a bathtub-shaped haz...
In this study, we introduce an extended version of the modified Weibull distribution with an additio...
The Weibull distribution is one of the widely known lifetime distribution that has been extensively ...
In this paper, we shall attempt to extend the generalized exponential geometric distribution of Silv...
Abstract: We define a new lifetime model based on compounding the Lindley and Nadarajah-Haghighi dis...
In this paper two probability distributions are introduced compounding inverse Weibull distribution ...
Abstract: In this paper, we introduce a new three-parameter distribution by compounding the Nadaraja...
We propose a new four-parameter lifetime distribution obtained by compounding twouseful distribution...
A new class of lifetime distributions, which can exhibit with upside-down bathtub-shaped, bathtub-sh...
A new three-parameter life parametric model called the Marshall-Olkin generalized Weibull is defined...
© 2014 Sapienza Università di Roma. A new class of lifetime distributions is introduced by compoundi...
A new two parameter life time model, which accommodates increasing, decreasing, bathtub, and a broad...
Bathtub failure rate shape is widely used in industrial and medical applications. In this paper, a t...
We introduce a new four-parameter distribution with constant, decreasing, increasing, bathtub and up...
In this paper, we propose a new lifetime distribution. We discuss several mathematical properties of...
A four parameter generalization of the Weibull distribution capable of modeling a bathtub-shaped haz...
In this study, we introduce an extended version of the modified Weibull distribution with an additio...
The Weibull distribution is one of the widely known lifetime distribution that has been extensively ...
In this paper, we shall attempt to extend the generalized exponential geometric distribution of Silv...
Abstract: We define a new lifetime model based on compounding the Lindley and Nadarajah-Haghighi dis...
In this paper two probability distributions are introduced compounding inverse Weibull distribution ...