The researchers in applied statistics are recently highly motivated to introduce new generalizations of distributions due to the limitations of the classical univariate distributions. In this study, we propose a new family called new generalized-X family of distributions. A special sub-model called new generalized-Weibull distribution is studied in detail. Some basic statistical properties are discussed in depth. The performance of the new proposed model is assessed graphically and numerically. It is compared with the five well-known competing models. The proposed model is the best in its performance based on the model adequacy and discrimination techniques. The analysis is done for the real data and the maximum likelihood estimation techni...
A new five parameter gamma-generalized modified Weibull (GGMW) distribution which includes exponenti...
In this paper, a new family of continuous distributions, called the modified odd Weibull-G (MOW-G) f...
The need to develop generalizations of existing statistical distributions to make them more flexible...
During the past couple of years, statistical distributions have been widely used in applied areas su...
As is already known, statistical models are very important for modeling data in applied fields, part...
In this paper, a new general family of distributions using the hypoexponential distribution is intro...
In this article, we introduce a new class of distributions called the New Exponentiated T-X family o...
A new generalization of the odd Weibull-Topp-Leone-G family of distributions called the odd Weibull-...
In this thesis, a new class of generalized distributions which includes several new distributions is...
We propose a new method to generate family of distributions. Then, a family of univariate distributi...
In this article, a new ``odd generalized gamma-G" family of distributions, called the GG-G family of...
In the present study, we propose a new family of distributions namely the Pareto-X family. A sub mod...
In this article, a new "odds generalized gamma-G" family of distributions, called the GG-G family of...
Weibull distribution and its extended families has been widely studied in lifetime applications. Bas...
We propose a new extended G family of distributions. Some of its structural properties are derived a...
A new five parameter gamma-generalized modified Weibull (GGMW) distribution which includes exponenti...
In this paper, a new family of continuous distributions, called the modified odd Weibull-G (MOW-G) f...
The need to develop generalizations of existing statistical distributions to make them more flexible...
During the past couple of years, statistical distributions have been widely used in applied areas su...
As is already known, statistical models are very important for modeling data in applied fields, part...
In this paper, a new general family of distributions using the hypoexponential distribution is intro...
In this article, we introduce a new class of distributions called the New Exponentiated T-X family o...
A new generalization of the odd Weibull-Topp-Leone-G family of distributions called the odd Weibull-...
In this thesis, a new class of generalized distributions which includes several new distributions is...
We propose a new method to generate family of distributions. Then, a family of univariate distributi...
In this article, a new ``odd generalized gamma-G" family of distributions, called the GG-G family of...
In the present study, we propose a new family of distributions namely the Pareto-X family. A sub mod...
In this article, a new "odds generalized gamma-G" family of distributions, called the GG-G family of...
Weibull distribution and its extended families has been widely studied in lifetime applications. Bas...
We propose a new extended G family of distributions. Some of its structural properties are derived a...
A new five parameter gamma-generalized modified Weibull (GGMW) distribution which includes exponenti...
In this paper, a new family of continuous distributions, called the modified odd Weibull-G (MOW-G) f...
The need to develop generalizations of existing statistical distributions to make them more flexible...