The Jelinski-Moranda (JM) model for software reliability was examined. It is suggested that a major reason for the poor results given by this model is the poor performance of the maximum likelihood method (ML) of parameter estimation. A reparameterization and Bayesian analysis, involving a slight modelling change, are proposed. It is shown that this new Bayesian-Jelinski-Moranda model (BJM) is mathematically quite tractable, and several metrics of interest to practitioners are obtained. The BJM and JM models are compared by using several sets of real software failure data collected and in all cases the BJM model gives superior reliability predictions. A change in the assumption which underlay both models to present the debugging process mor...
The use of statistical methods is central to improving the quality of products utilized in society t...
International audienceThe authors present a new software reliability model, called the lognormal pro...
There are many probabilistic and statistical approaches to modelling software reliability. Software ...
Maximum likelihood estimation procedures for the Jelinski-Moranda software reliability model often g...
Software reliability has become increasingly important, especially in life-critical situations. The ...
The Jelinski-Moranda and Geometric models for software reliability failed the consistency test which...
There are many software reliability models which try to predict future performance of software based...
Software which is used in life critical functions must be known to be highly reliable before install...
This paper presents the application of an inferential statistical approach which combines imprecise ...
In spite of much research effort, there is no universally applicable software reliability growth mod...
International audienceIn a very concise paper, Koch and Spreij have proposed a software reliability ...
A large number of software reliability growth models are now available. It is widely known that none...
A new software reliability growth model (SRGM) called RBoostSRGM is proposed in this paper. It can b...
During the six-month period from 1 April 1991 to 30 September 1991 the following research papers in ...
Two methods are proposed to find the maximum likelihood parameter estimates of a number of software ...
The use of statistical methods is central to improving the quality of products utilized in society t...
International audienceThe authors present a new software reliability model, called the lognormal pro...
There are many probabilistic and statistical approaches to modelling software reliability. Software ...
Maximum likelihood estimation procedures for the Jelinski-Moranda software reliability model often g...
Software reliability has become increasingly important, especially in life-critical situations. The ...
The Jelinski-Moranda and Geometric models for software reliability failed the consistency test which...
There are many software reliability models which try to predict future performance of software based...
Software which is used in life critical functions must be known to be highly reliable before install...
This paper presents the application of an inferential statistical approach which combines imprecise ...
In spite of much research effort, there is no universally applicable software reliability growth mod...
International audienceIn a very concise paper, Koch and Spreij have proposed a software reliability ...
A large number of software reliability growth models are now available. It is widely known that none...
A new software reliability growth model (SRGM) called RBoostSRGM is proposed in this paper. It can b...
During the six-month period from 1 April 1991 to 30 September 1991 the following research papers in ...
Two methods are proposed to find the maximum likelihood parameter estimates of a number of software ...
The use of statistical methods is central to improving the quality of products utilized in society t...
International audienceThe authors present a new software reliability model, called the lognormal pro...
There are many probabilistic and statistical approaches to modelling software reliability. Software ...