Characterizations of the exponential distribution by stochastic ordering properties of the geometric compound

Chin-Yuan Hu; Gwo Dong Lin

doi:10.1007/bf02517803

The Inverse Epsilon Distribution as an Alternative to Inverse Exponential Distribution with a Survival Times Data Example

Acta Cybernetica ◽

10.14232/actacyb.292077 ◽

2022 ◽

Author(s):

Tamás Jónás ◽

Christophe Chesneau ◽

József Dombi ◽

Hassan Salah Bakouch

Keyword(s):

Exponential Distribution ◽

Stochastic Ordering ◽

Quantile Function ◽

Reliability Theory ◽

Truncated Distribution ◽

Survival Times ◽

Rate Functions ◽

Inverse Exponential Distribution ◽

Two Parameter ◽

Skewness And Kurtosis

This paper is devoted to a new flexible two-parameter lower-truncated distribution, which is based on the inversion of the so-called epsilon distribution. It is called the inverse epsilon distribution. In some senses, it can be viewed as an alternative to the inverse exponential distribution, which has many applications in reliability theory and biology. Diverse properties of the new lower-truncated distribution are derived including relations with existing distributions, hazard and reliability functions, survival and reverse hazard rate functions, stochastic ordering, quantile function with related skewness and kurtosis measures, and moments. A demonstrative survival times data example is used to show the applicability of the new model.

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Some reliability characteristics and stochastic ordering of series and parallel systems of bivariate generalized exponential distribution

Journal of Statistical Computation and Simulation ◽

10.1080/00949655.2017.1397152 ◽

2017 ◽

Vol 88 (3) ◽

pp. 553-574

Author(s):

Fatih Kızılaslan

Keyword(s):

Exponential Distribution ◽

Stochastic Ordering ◽

Parallel Systems ◽

Generalized Exponential Distribution ◽

Reliability Characteristics

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The Approximation of Sum of Independent Distributions by the Erlang Distribution Function

Nonlinear Analysis Modelling and Control ◽

10.15388/na.2002.7.1.15202 ◽

2002 ◽

Vol 7 (1) ◽

pp. 55-60 ◽

Cited By ~ 1

Author(s):

Antanas Karoblis

Keyword(s):

Distribution Function ◽

Exponential Distribution ◽

Queueing Theory ◽

Erlang Distribution ◽

Estimation Of Error

The exponential distribution and the Erlang distribution function are been used in numerous areas of mathematics, and specifically in the queueing theory. Such and similar applications emphasize the importance of estimation of error of approximation by the Erlang distribution function. The article gives an analysis and technique of error’s estimation of an accuracy of such approximation, especially in some specific cases.

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The Comparison Between the Bayes Estimator and the Maximum Likelihood Estimator of the Reliability Function for Negative Exponential Distribution

Ibn AL- Haitham Journal For Pure and Applied Science ◽

10.30526/2017.ihsciconf.1815 ◽

2018 ◽

pp. 439

Author(s):

Hazim Mansour Gorgees ◽

Bushra Abdualrasool Ali ◽

Raghad Ibrahim Kathum

Keyword(s):

Maximum Likelihood ◽

Maximum Likelihood Estimator ◽

Exponential Distribution ◽

Reliability Function ◽

Bayes Estimator ◽

Likelihood Estimator ◽

Monte Carlo Simulation Technique ◽

Negative Exponential Distribution ◽

Negative Exponential ◽

Better Than

In this paper, the maximum likelihood estimator and the Bayes estimator of the reliability function for negative exponential distribution has been derived, then a Monte –Carlo simulation technique was employed to compare the performance of such estimators. The integral mean square error (IMSE) was used as a criterion for this comparison. The simulation results displayed that the Bayes estimator performed better than the maximum likelihood estimator for different samples sizes.

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Evaluation for estimating of the PDF and the CDF of Generalized Inverted Exponential Distribution with Application in Industry

Advances in Mathematics: Scientific Journal ◽

10.37418/amsj.9.1.39 ◽

2020 ◽

pp. 507-522

Author(s):

Parisa Torkaman

Keyword(s):

Least Squares ◽

Exponential Distribution ◽

Mean Squared Error ◽

Weighted Least Squares ◽

Real Data ◽

Minimum Variance ◽

Cumulative Distribution ◽

Estimation Methods ◽

Data Set ◽

Better Than

The generalized inverted exponential distribution is introduced as a lifetime model with good statistical properties. This paper, the estimation of the probability density function and the cumulative distribution function of with five different estimation methods: uniformly minimum variance unbiased(UMVU), maximum likelihood(ML), least squares(LS), weighted least squares (WLS) and percentile(PC) estimators are considered. The performance of these estimation procedures, based on the mean squared error (MSE) by numerical simulations are compared. Simulation studies express that the UMVU estimator performs better than others and when the sample size is large enough the ML and UMVU estimators are almost equivalent and efficient than LS, WLS and PC. Finally, the result using a real data set are analyzed.

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Dominating Randomness - Applications of State Contingent Stochastic Ordering Methods to the Clustering and Performance Measurement of Trading Strategies

SSRN Electronic Journal ◽

10.2139/ssrn.1729726 ◽

2010 ◽

Author(s):

Clemens Glaffig

Keyword(s):

Performance Measurement ◽

Stochastic Ordering ◽

Trading Strategies ◽

And Performance

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Ehrenfest urn models

Journal of Applied Probability ◽

10.1017/s0021900200108708 ◽

1965 ◽

Vol 2 (02) ◽

pp. 352-376 ◽

Cited By ~ 25

Author(s):

Samuel Karlin ◽

James McGregor

Keyword(s):

Exponential Distribution ◽

Continuous Time ◽

Random Variables ◽

Independent Random Variables ◽

Urn Models ◽

Time Intervals ◽

Negative Exponential Distribution ◽

Negative Exponential ◽

Random Times

In the Ehrenfest model with continuous time one considers two urns and N balls distributed in the urns. The system is said to be in stateiif there areiballs in urn I, N −iballs in urn II. Events occur at random times and the time intervals T between successive events are independent random variables all with the same negative exponential distributionWhen an event occurs a ball is chosen at random (each of theNballs has probability 1/Nto be chosen), removed from its urn, and then placed in urn I with probabilityp, in urn II with probabilityq= 1 −p, (0 <p< 1).

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Stochastic Comparisons of Some Distances between Random Variables

Mathematics ◽

10.3390/math9090981 ◽

2021 ◽

Vol 9 (9) ◽

pp. 981

Author(s):

Patricia Ortega-Jiménez ◽

Miguel A. Sordo ◽

Alfonso Suárez-Llorens

Keyword(s):

Financial Risk ◽

Sufficient Conditions ◽

Random Variables ◽

Stochastic Ordering ◽

Random Variable ◽

Distribution Functions ◽

Stochastic Comparisons ◽

Stochastic Orderings ◽

Absolute Value ◽

The Difference

The aim of this paper is twofold. First, we show that the expectation of the absolute value of the difference between two copies, not necessarily independent, of a random variable is a measure of its variability in the sense of Bickel and Lehmann (1979). Moreover, if the two copies are negatively dependent through stochastic ordering, this measure is subadditive. The second purpose of this paper is to provide sufficient conditions for comparing several distances between pairs of random variables (with possibly different distribution functions) in terms of various stochastic orderings. Applications in actuarial and financial risk management are given.

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