释义 |
- References
- External links
{{Notability|date=January 2010}}The Method Framework for Engineering System Architectures (MFESA) is a method engineering framework based on situational method engineering, which provides a method for developing appropriate, project-specific system architecture engineering methods. It is primarily developed by Donald Firesmith and first published in 2008.[1] MFESA is a four-part method framework consisting of the MFESA: - Ontology defining the key concepts of system architecture engineering and their relationships
- Metamodel defining the foundational abstract supertypes of method components for engineering system architectures including architectural:[2]
- Work products including architectures and architectural representations such as models and documents
- Work units including activities, tasks, and techniques for producing the work products
- Producers including system architects, architecture teams, and architecture tools that perform the work units to produce the work products
- Repository of free, open-source, reusable method components for creating situation-specific system architecture engineering methods
- Metamethod for creating situation-specific system architecture engineering methods by selecting appropriate method components from the repository, tailoring them as appropriate, and integrating them to form the new architecture engineering method
References 1. ^Donald Firesmith et al. (2008). The Method Framework for Engineering System Architectures. {{ISBN|978-1-4200-8575-4}} 2. ^{{cite web |url=http://www.slideshare.net/KBB_2009/081007bhasin1 |title=Architecting Large Families of Space Systems and Networks |year=2008 |author=Kul Bhasin |publisher=NASA Goddard Space Flight Center |accessdate=August 13, 2012}}
{{Refimprove|date=September 2009}} External links - The OPEN Process Framework Repository Organization The MFESA tasks have been incorporated into the OPFRO repository of reusable method components.
{{DEFAULTSORT:Method Framework For Engineering System Architectures}} 1 : Method engineering |