Abstract
System designers, analysts, and engineers use various techniques to develop complex systems. A traditional design approach, point-based design (PBD), uses system decomposition and modeling, simulation, optimization, and analysis to find and compare discrete design alternatives. Set-based design (SBD) is a concurrent engineering technique that compares a large number of design alternatives grouped into sets. The existing SBD literature discusses the qualitative team-based characteristics of SBD, but lacks insights into how to quantitatively perform SBD in a team environment. This paper proposes a qualitative SBD conceptual framework for system design, proposes a team-based, quantitative SBD approach for early system design and analysis, and uses an unmanned aerial vehicle case study with an integrated model-based engineering framework to demonstrate the potential benefits of SBD. We found that quantitative SBD tradespace exploration can identify potential designs, assess design feasibility, inform system requirement analysis, and evaluate feasible designs. Additionally, SBD helps designers and analysts assess design decisions by providing an understanding of how each design decision affects the feasible design space. We conclude that SBD provides a more holistic tradespace exploration process since it provides an integrated examination of system requirements and design decisions.
Highlights
The design of complex engineered systems requires detailed analyses performed by a large number of experts over a specific period
An alternative to point-based design (PBD) is set-based design (SBD), which explores a large number of design alternatives grouped into sets and uses uncertainty resolution to select the most promising sets
The purpose of this paper is to show how tradespace exploration in early system design using an integrated model-based engineering (MBE), Set-based design (SBD), and trade-off analysis method can help develop requirements and identify high-performing design alternatives that have an affordable cost
Summary
The design of complex engineered systems requires detailed analyses performed by a large number of experts over a specific period. PBD is a well-researched area [1,2,3,4,5,6,7,8,9,10,11]. An alternative to PBD is set-based design (SBD), which explores a large number of design alternatives grouped into sets and uses uncertainty resolution to select the most promising sets. In 2008 the Commander of the Naval Sea Systems Command sent a memo entitled “Ship Design and Analysis Tool Goals”, which required the use of SBD and the use of new tools for trade-off analysis [14].
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