Software Engineering Economics
Software Engineering Economics
A software project dynamics model for process cost, schedule and risk assessment
A software project dynamics model for process cost, schedule and risk assessment
Designing an optimal software intensive system acquisition: a game theoretic approach
Designing an optimal software intensive system acquisition: a game theoretic approach
Modeling user story completion of an agile software process
Proceedings of the 2013 International Conference on Software and System Process
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Available software metrics data from an initially schedule and cost-driven satellite flight software project contains a late life cycle staff spike from a lack of initial rigor in inspection and unit testing. In order to study the effects on the number of staff from varying the degree of inspection and unit test rigor, Madachy's inspection-based system dynamics model was modified to add unit testing and an integration test feedback loop. This modified Madachy model generated a similar late life cycle manpower rate increase from a parametric lack of up-front rigor in these same defect removal techniques.