Software engineering (2nd ed.): principles and practice
Software engineering (2nd ed.): principles and practice
Monitoring the software test process using statistical process control: a logarithmic approach
Proceedings of the 9th European software engineering conference held jointly with 11th ACM SIGSOFT international symposium on Foundations of software engineering
Six Sigma for Software Application of Hypothesis Tests to Software Data
Software Quality Control
IEEE Software
Statistical Techniques for Software Engineering Practice
Proceedings of the 26th International Conference on Software Engineering
State of the Art and Future of Research in Software Process Improvement
COMPSAC '04 Proceedings of the 28th Annual International Computer Software and Applications Conference - Volume 01
Using fault slippage measurement for monitoring software process quality during development
Proceedings of the 2006 international workshop on Software quality
Software inspections in practice: six case studies
PROFES'06 Proceedings of the 7th international conference on Product-Focused Software Process Improvement
Software defect analysis of a multi-release telecommunications system
PROFES'05 Proceedings of the 6th international conference on Product Focused Software Process Improvement
Empirical evaluation of selected best practices in implementation of software process improvement
Information and Software Technology
Optimized software process for fault handling in global software development
ICSP'08 Proceedings of the Software process, 2008 international conference on Making globally distributed software development a success story
Journal of Systems and Software
Hi-index | 0.00 |
In the rapidly growing modern telecommunications industry, software quality and reliability requirements are in contrast to the shorter time to market and higher complexity requirements dictated by strong competition on the telecommunications market. In such a rapidly changing environment, software development organization must improve almost on a daily basis in order to achieve the operational excellence which leads to business success. In this paper, an approach to the continuous improvement of the software verification process based on the application of Six Sigma is given. More precisely, with the help of the Six Sigma methodology, change management, and statistical tools and techniques, the proposed approach solves the problem of fault slippage through verification phases, which is particularly important in overlapping project conditions. Success of the proposed process improvement, proved using Six Sigma methodologies for a case study from a real industrial project, encourages wide and general application to any software verification process.