Testability is defined as the probability that a program will fail a test, conditional on the program containing some fault. In this paper, we show that statements about the testability of a program can be more simply described in terms of assumptions on the probability distribution of the failure intensity of the program. We can thus state general acceptance conditions in clear mathematical terms using Bayesian inference. We develop two scenarios, one for software for which the reliability requirements are that the software must be completely fault-free, and another for requirements stated as an upper bound on the acceptable failure probability
Reliability of software is an important quality measure, especially for ultra-reliable software. In ...
This paper looks at the ways in which the reliability of software can be assessed and predicted. It ...
In recent years we have become interested in the problem of assessing the probability of perfection ...
Program “testability” is informally, the probability that a program will fail under test if it conta...
When assessing a software-based system, the results of Bayesian statistical inference on operational...
Many software development practices aim at ensuring that software is correct, or fault-free. In safe...
In the debate over the assessment of software reliability (or safety), as applied to critical softwa...
We propose to validate experimentally a theory of software certification that proceeds from assessme...
AbstractThis paper presents Bayesian techniques for conservative claims about software reliability, ...
This paper presents Bayesian techniques for conservative claims about software reliability, particul...
Context: In software testing, Failed Error Propagation (FEP) is the situation in which a faulty p...
Software reliability has become increasingly important, especially in life-critical situations. The ...
This paper proposes a Bayesian approach to the quantification of some of the subjectivity that is in...
Predicting the reliability of software systems based on a component-based approach is inherently dif...
The probability of perfection becomes of interest as the realization of its role in the reliability ...
Reliability of software is an important quality measure, especially for ultra-reliable software. In ...
This paper looks at the ways in which the reliability of software can be assessed and predicted. It ...
In recent years we have become interested in the problem of assessing the probability of perfection ...
Program “testability” is informally, the probability that a program will fail under test if it conta...
When assessing a software-based system, the results of Bayesian statistical inference on operational...
Many software development practices aim at ensuring that software is correct, or fault-free. In safe...
In the debate over the assessment of software reliability (or safety), as applied to critical softwa...
We propose to validate experimentally a theory of software certification that proceeds from assessme...
AbstractThis paper presents Bayesian techniques for conservative claims about software reliability, ...
This paper presents Bayesian techniques for conservative claims about software reliability, particul...
Context: In software testing, Failed Error Propagation (FEP) is the situation in which a faulty p...
Software reliability has become increasingly important, especially in life-critical situations. The ...
This paper proposes a Bayesian approach to the quantification of some of the subjectivity that is in...
Predicting the reliability of software systems based on a component-based approach is inherently dif...
The probability of perfection becomes of interest as the realization of its role in the reliability ...
Reliability of software is an important quality measure, especially for ultra-reliable software. In ...
This paper looks at the ways in which the reliability of software can be assessed and predicted. It ...
In recent years we have become interested in the problem of assessing the probability of perfection ...