Application of Model-based Systems Engineering Methods to Development of Combat System Architectures
Green, John M.
MetadataShow full item record
Navy acquisition activities frequently produce combat system architectures based on existing systems rather than on stakeholder requirements. This approach limits software component reuse, which, in turn, limits potential application to other platforms. The objective of this Capstone project was to develop a methodology for creating complex combat system architectures that emphasize the use of Software Product Lines (SPLs), requirements traceability, integrated supportability and Modeling and Simulation (M&S) early and throughout the approach. To address this objective, an integrated methodology that utilizes Model-based Systems Engineering (MBSE) to create open, supportable combat system architectures was developed. The methodology was evaluated by applying it to a naval surface combatant Anti-Air Warfare (AAW) mission area. Application of the methodology led to the following major findings: (1) Proven systems engineering practices, languages and tools can be integrated with the MBSE approach for developing complex architectures; (2) Creation of domain-centered SPLs facilitates planned reuse and allows for assessment to candidate architectures; (3) Requirements traceability can be achieved by using a combination of modeling languages and tools; (4) M&S application can extend beyond operational scenarios to address lifecycle cost, and (5) Engineers and logisticians can effectively use MBSE to integrate supportability into design. Overall, this project demonstrated the benefits of an MBSE approach tailored to developing affordable and supportable combat system architectures that meet mission requirements.
RightsThis 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.
NPS Report NumberNPS-AM-09-025
Showing items related by title, author, creator and subject.
Application of model based systems engineering methods to development of combat system architectures Banner-Bacin, Linda; Carpenter, Tim; Chacon, David; Chandler, James; Childs, James; Hoang, Tuyen; Howard, Robert; Isaian, James; Kang, Seung; Kinberg, Michael; Kong, James; Manz, Jeremy; Matela, Ruth; Mendiola, Jonathan; O'Neil, John; Ortiz, Leonard; Pham, Tan; Rayshouny, Jamal; Sarabia, Eric; Sung, Kihoon; Sysavath, Heng; Vajdos, Caleb; Valdez, Armando; Vasquez, Armando; Wellesley, Alan; Wentland, Mindy; Wheeler, Paul (Monterey, California. Naval Postgraduate School, 2009); NPS-SE-09-002Navy acquisition activities frequently produce combat system architectures based on existing systems rather than stakeholder requirements. This approach limits software component reuse which, in turn, limits potential ...
Hall, Robert (Monterey, CA; Naval Postgraduate School, 2018-06);Current U.S. Navy combat system suites are ship class dependent. There are a variety of configurations that include sensors, weapons, and system interfaces to accomplish similar goals. The Navy Surface Warfare Center ...
ARIES : an architectural implementation of a multi-criterion Spatial Decision Support System (SDSS) Falk, Peter R (Monterey, California. Naval Postgraduate School, 1997-09);This thesis describes a component-based methodology for developing a new class of systems called spatial decision support systems (SDSS). The methodology is presented within the context of the development of the ARIES (army ...