Determination of Software Reliability based on Multivariate Exponential, Lomax and Weibull Models
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Publication:5757066
DOI10.1515/156939606779329035zbMath1123.68026OpenAlexW2014159171MaRDI QIDQ5757066
Samuel Kotz, Saralees Nadarajah
Publication date: 24 August 2007
Published in: Monte Carlo Methods and Applications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1515/156939606779329035
Cites Work
- Unnamed Item
- On characterizing the bivariate exponential and geometric distributions
- Inference procedures for a bivariate exponential model of Gumbel based on life test of component and system
- Multivariate distributions having Weibull properties
- LBI tests of independence in bivariate exponential distributions
- Multivariate \(\ell_ p\)-norm symmetric distributions
- Multivariate survival functions characterized by constant product of mean remaining lives and hazard rates
- Bivariate Exponential Distributions
- Fitting a multivariate failure time distribution
- A Multivariate Model for Repeated Failure Time Measurements
- Miscellanea. On the insensitivity of the score test for heterogeneity to omitted covariates in multivariate failure time models
- Properties of a multivariate survival distribution generated by a Weibull and inverse-Gaussian mixture
- General Conditions for Comparing the Reliability Functions of Systems of Components Sharing a Common Environment
- Multivariate Lomax distribution: properties and usefulness in reliability theory
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