DocumentCode
3444737
Title
Parameter-based representation for modeling complex systems. 2
Author
Friedenthal, Sanford A. ; Lykins, Howard
Author_Institution
2214 Rock Hill Rd., Herndon, VA, USA
fYear
1996
fDate
11-15 Mar 1996
Firstpage
65
Lastpage
71
Abstract
For pt. 1 see Friedenthal, proc. NCOSE (1995). This paper describes a concept for a parameter-based representation (PER) to model complex systems. The representation combines features from both process and object-oriented representations, including IDEFO, data and control flow diagrams, entity relationship attribute (ERA) diagrams, and parameter dependency diagrams. PER applies and extends many concepts that are widely used in software engineering to system-level design. The parameter-based approach provides enhanced capability over existing representations because it represents the multiple attributes of a system-including the performance, physical, design, and process parameters-and explicitly defines the relationships between them. As part of the system design, the parameters are logically partitioned into input, output, and mechanism objects. The relationships between the parameters are captured by behavioral, structural, and class representations. Because PER can represent explicit mathematical relationships between system parameters, it can also be used to develop an executable model of the system. The PER approach assists the systems designer in performing sensitivity and trade-off analysis, assessing the impact of design decisions and changes on system performance, and maintaining design traceability
Keywords
software engineering; systems analysis; systems engineering; complex systems; control flow diagrams; design decisions; entity relationship attribute; modeling complex systems; object-oriented; parameter dependency diagrams; parameter-based representation; process oriented; software engineering; system performance; system-level design; trade-off analysis; Bioreactors; Design engineering; Maintenance engineering; Object oriented modeling; Performance analysis; Process design; Productivity; Reliability engineering; System performance; Systems engineering and theory;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering of Computer-Based Systems,1996. Proceedings., IEEE Symposium and Workshop on
Conference_Location
Friedrichshafen
Print_ISBN
0-8186-7355-9
Type
conf
DOI
10.1109/ECBS.1996.494512
Filename
494512
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