Evaluation of competing software reliability predictions
IEEE Transactions on Software Engineering - Special issue on reliability and safety in real-time process control
Bounded relative error in estimating transient measures of highly dependable non-Markovian systems
ACM Transactions on Modeling and Computer Simulation (TOMACS)
Performance and reliability analysis of computer systems: an example-based approach using the SHARPE software package
Handbook of software reliability engineering
Handbook of software reliability engineering
Software reliability modeling survey
Handbook of software reliability engineering
Techniques for prediction analysis and recalibration
Handbook of software reliability engineering
Log-Logistic Software Reliability Growth Model
HASE '98 The 3rd IEEE International Symposium on High-Assurance Systems Engineering
SREPT: Software Reliability Estimation and Prediction Tool
TOOLS '98 Proceedings of the 10th International Conference on Computer Performance Evaluation: Modelling Techniques and Tools
Unification of finite failure non-homogeneous Poisson process models through test coverage
ISSRE '96 Proceedings of the The Seventh International Symposium on Software Reliability Engineering
What do the Software Reliability Growth Model Parameters Represent?
ISSRE '97 Proceedings of the Eighth International Symposium on Software Reliability Engineering
Confidence Interval Estimation of NHPP-Based Software Reliability Models
ISSRE '99 Proceedings of the 10th International Symposium on Software Reliability Engineering
Analysis of software reliability and performance
Analysis of software reliability and performance
Number of Faults per Line of Code
IEEE Transactions on Software Engineering
Hi-index | 0.00 |
Although several tools have been developed for the estimation of software reliability, they are highly specialized in the approaches they implement and the particular phase of the software lifecycle in which they are applicable. Also the conventional techniques for software reliability evaluation, which treat the software as a monolithic entity are inadequate to assess the reliability of heterogeneous systems. We present here, our tool called Software Reliability Estimation and Prediction Tool (SREPT), that offers a unified framework containing techniques (including the architecture-based approach) to assist in the evaluation of software reliability at several phases of the software lifecycle.