Add to ORKGThe two main important properties of software components are reliability and robustness. Reliability can be defined as the probability of failure free operation and on the other hand the robustness can be defined as how far the software can be able to with stand for intrusion attacks. In both the cases there should be some metric to evaluate the performance of these properties. In this paper metrics are been described which can be used to assess the quality of performance for these properties within a software reliability growth model
ROBUST is a tool for analyzing and predicting the growth of software reliability based on a number o...
A Non-Homogenous Poisson Process (NHPP) model whose failure intensity function has the same mathemat...
It is of paramount importance that software reliability requirements not only can be formulated, but...
The two main important properties of software components are reliability and robustness. Reliability...
Software reliability is the probability that the software will run without failures for an unlimited...
Abstract — Software reliability is an important aspect of software quality. And achieving reliabilit...
Software reliability models describe the failure behavior of the software. The models are used to ev...
History of research on reliability of software began in the early seventies of the last century. A s...
A software reliability growth model is one of the fundamental techniques used to assess software rel...
In recent years, many software development organizations have been assessing and analyzing their sof...
Software growth models aims for reliability of the application over a period of time. Assessment of ...
The goal is to look for code performance metrics. Reliability is an important aspect of any program ...
AbstractThe reliability of the software represents one of the most important attributes of software ...
[[abstract]]Software reliability is an important characteristic for most systems. A number of reliab...
This report gives an introduction to the State of the Art of Software Reliability Prediction. It sta...
ROBUST is a tool for analyzing and predicting the growth of software reliability based on a number o...
A Non-Homogenous Poisson Process (NHPP) model whose failure intensity function has the same mathemat...
It is of paramount importance that software reliability requirements not only can be formulated, but...
The two main important properties of software components are reliability and robustness. Reliability...
Software reliability is the probability that the software will run without failures for an unlimited...
Abstract — Software reliability is an important aspect of software quality. And achieving reliabilit...
Software reliability models describe the failure behavior of the software. The models are used to ev...
History of research on reliability of software began in the early seventies of the last century. A s...
A software reliability growth model is one of the fundamental techniques used to assess software rel...
In recent years, many software development organizations have been assessing and analyzing their sof...
Software growth models aims for reliability of the application over a period of time. Assessment of ...
The goal is to look for code performance metrics. Reliability is an important aspect of any program ...
AbstractThe reliability of the software represents one of the most important attributes of software ...
[[abstract]]Software reliability is an important characteristic for most systems. A number of reliab...
This report gives an introduction to the State of the Art of Software Reliability Prediction. It sta...
ROBUST is a tool for analyzing and predicting the growth of software reliability based on a number o...
A Non-Homogenous Poisson Process (NHPP) model whose failure intensity function has the same mathemat...
It is of paramount importance that software reliability requirements not only can be formulated, but...