Paper Info
Title
Empirical Validation of Structural Complexity Metric and Complexity Management for Engineering Systems
Abstract
AbstractQuantitative assessment of structural complexity is essential for characterization of engineered complex systems. In this paper, we describe a quantitative measure for structural complexity, conduct an empirical validation study of the structural complexity metric, and introduce a complexity management framework for engineering system development. We perform empirical validation of the proposed complexity metric using simple experiments using ball and stick models and show that the development effort increases superlinearly with increasing structural complexity. The standard deviation of the build time for ball and stick models is observed to vary superlinearly with structural complexity. We also describe a generic statistical procedure for building such cost estimation relationships with structural complexity as the independent variable. We distinguish the notion of perception of complexity as an observer-dependent property and contrast that with complexity, which is a property of the system architecture. Finally, we introduce the notion of system value based on performance-complexity trade space and introduce a complexity management framework for system development.
Year
DOI
Venue
2016
10.1002/sys.21356
Periodicals
Keywords
Field
DocType
structural complexity,development effort,empirical validation,perception of complexity,system value,complexity management framework
Complex system,Asymptotic computational complexity,Mathematical optimization,Financial economics,Structural complexity,Decision tree model,Theoretical computer science,Descriptive complexity theory,Systems architecture,Complexity management,Worst-case complexity,Mathematics
Journal
Volume
Issue
ISSN
19
3
1098-1241
Citations 
PageRank 
References 
4
0.48
4
Authors
2
Name
Order
Citations
PageRank
Kaushik Sinha124417.81
Olivier L. de Weck27318.28