The Budding SV3: Estimating the Cost of Architectural Growth Early in the Life Cycle
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Authors
Dabkowski, Matthew
Valerdi, Ricardo
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Date of Issue
2014-04-30
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Monterey, California. Naval Postgraduate School
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Abstract
As the systems engineering community continues to mature model-based approaches, exciting opportunities for sophisticated, computational analysis grow. Among these possibilities, we posit and demonstrate a novel algorithm for estimating the cost of architectural changes early in the system life cycle when uncertainty is high. In particular, by treating the DoD Architecture Framework (DoDAF) Systems View 3 (SV3) as an adjacency matrix, we leverage concepts from network science to analyze the impact of architectural changes that result from the addition of a subsystem. Following this growth, we estimate the marginal increase in systems engineering effort via an explicit connection between the open academic cost model COSYSMO (Constructive Systems Engineering Cost Model) and the SV3. Based on its stochastic nature, this procedure is further implemented as a Monte Carlo simulation, allowing us to generate distributions of potential cost growth. Theoretically, this work serves as a proof of concept for further research on the integration of network science and systems engineering. Practically, the methodology provides a means for practitioners to accelerate the accuracy and fidelity of their “should cost” and “will cost” analyses early in the systems life cycle.
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Report
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NPS-AM-14-C11P22R02-076
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Naval Postgraduate School Acquisition Research Program
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This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.