The modeling and analysis of lifetime data is an important aspect of statistical work in a wide variety of scientific and technological fields. Good (1953) introduced a probability distribution which is commonly used in the analysis of lifetime data. For the first time, based on this distribution, we propose the so-called exponentiated generalized inverse Gaussian distribution, which extends the exponentiated standard gamma distribution (Nadarajah and Kotz, 2006). Various structural properties of the new distribution are derived, including expansions for its moments, moment generating function, moments of the order statistics, and so forth. We discuss maximum likelihood estimation of the model parameters. The usefulness of the new model is ...
In this paper, we attempt to introduce a new lifetime model as a discrete version of the continuous ...
In this article, we propose the exponentiated sine-generated family of distributions. Some important...
For the first time, we introduce a generalized form of the exponentiated generalized gamma distribut...
AbstractThe modeling and analysis of lifetime data is an important aspect of statistical work in a w...
The modeling and analysis of lifetime data is an important aspect of statistical work in a wide vari...
A four-parameter extension of the generalized gamma distribution capable of modelling a bathtub-shap...
The exponential distribution is a popular statistical distribution to study the problems in lifetime...
Full list of author information is available at the end of the article In this paper, we propose a f...
The exponentiated gamma (EG) distribution is one of the important families of distributions in lifet...
We propose a new generalized family of distributions called the exponentiated generalized power seri...
Searching for flexible parametric models is often the concern of statisticians in data analysis. In ...
In this paper, we proposed a new four-parameter Extended Gumbel type-2 distribution which can furthe...
The inverted generalized exponential distribution is defined as an alternative model for lifetime da...
In this article, a new four-parameter lifetime model called the exponentiated generalized inverted G...
This paper introduces the four parameter new generalized inverse Weibull distribution and investigat...
In this paper, we attempt to introduce a new lifetime model as a discrete version of the continuous ...
In this article, we propose the exponentiated sine-generated family of distributions. Some important...
For the first time, we introduce a generalized form of the exponentiated generalized gamma distribut...
AbstractThe modeling and analysis of lifetime data is an important aspect of statistical work in a w...
The modeling and analysis of lifetime data is an important aspect of statistical work in a wide vari...
A four-parameter extension of the generalized gamma distribution capable of modelling a bathtub-shap...
The exponential distribution is a popular statistical distribution to study the problems in lifetime...
Full list of author information is available at the end of the article In this paper, we propose a f...
The exponentiated gamma (EG) distribution is one of the important families of distributions in lifet...
We propose a new generalized family of distributions called the exponentiated generalized power seri...
Searching for flexible parametric models is often the concern of statisticians in data analysis. In ...
In this paper, we proposed a new four-parameter Extended Gumbel type-2 distribution which can furthe...
The inverted generalized exponential distribution is defined as an alternative model for lifetime da...
In this article, a new four-parameter lifetime model called the exponentiated generalized inverted G...
This paper introduces the four parameter new generalized inverse Weibull distribution and investigat...
In this paper, we attempt to introduce a new lifetime model as a discrete version of the continuous ...
In this article, we propose the exponentiated sine-generated family of distributions. Some important...
For the first time, we introduce a generalized form of the exponentiated generalized gamma distribut...