Quantitative models for managing software development processes
Software Engineering Journal - Controlling software projects
Software project dynamics: an integrated approach
Software project dynamics: an integrated approach
Software Engineering Economics
Software Engineering Economics
A formal model of the software test process
IEEE Transactions on Software Engineering
An extensible model for evaluating the impact of process improvements on software development cycle time
Semi-quantitative Modeling for Managing Software Development Processes
ASWEC '08 Proceedings of the 19th Australian Conference on Software Engineering
Reflections on 10 years of software process simulation modeling: a systematic review
ICSP'08 Proceedings of the Software process, 2008 international conference on Making globally distributed software development a success story
Unifying microprocess and macroprocess research
SPW'05 Proceedings of the 2005 international conference on Unifying the Software Process Spectrum
Incremental Process Modeling through Stakeholder-Based Hybrid Process Simulation
ICSP '09 Proceedings of the International Conference on Software Process: Trustworthy Software Development Processes
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Software process modeling has become an essential technique for managing, investigating and improving software development processes. In this area, hybrid process simulation modeling attracts an increasing research attention. This paper presents a new hybrid software process model to investigate the test-and-fix process of incremental development. Its novelty comes from its flexible model structure that focuses on the particular portion of software process by using different modeling techniques on separate but interconnected phases in incremental development. Simulation results conclude that this model can support the investigation of portions of incremental development life cycle at different granularity levels simultaneously. It also allows the tradeoff analysis and optimization of test-and-fix process, while avoids the limitation caused by incomplete process detail of other phases.