The problem of quantifying uncertainty in the design process is approached indirectly. Nonquantifiable variability resulting from lack of knowledge is treated as epistemic uncertainty and quantifiable variability caused by random influences is treated as aleatory uncertainty. The emphasis in this approach is on the effects of epistemic uncertainty, left unquantified, on design performance. Performance is treated as a random function of the epistemic uncertainties that are considered as independent variables, and a design decision is based on the mean and variance of design performance. Since the mean and variance are functions of the uncertainties, multicriteria decision methods are employed to determine the preferred design. The methodology is illustrated on a three-spring model with stochastic forcing and two uncertain damping coefficients. Based on the example, the concept of balancing expected performance and risk is explored in an engineering context. Risk is quantified using aleatory uncertainty for fixed values of epistemic uncertainty. The study shows the unique features of this approach in which risk-based design decisions are made under both aleatory and epistemic uncertainties without assuming a distribution for epistemic uncertainty.
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e-mail: reneke@clemson.edu
e-mail: wmalgor@clemson.edu
e-mail: geroges@clemson.edu
e-mail: sundees@clemson.edu
e-mail: dimitrn@clemson.edu
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November 2010
Research Papers
Design Under Uncertainty: Balancing Expected Performance and Risk
James A. Reneke,
James A. Reneke
Department of Mathematical Sciences,
e-mail: reneke@clemson.edu
Clemson University
, Clemson, SC 29634
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Margaret M. Wiecek,
Margaret M. Wiecek
Department of Mathematical Sciences,
e-mail: wmalgor@clemson.edu
Clemson University
, Clemson, SC 29634
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Georges M. Fadel,
Georges M. Fadel
Department of Mechanical Engineering,
e-mail: geroges@clemson.edu
Clemson University
, Clemson, SC 29634
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Sundeep Samson,
Sundeep Samson
Department of Mathematical Sciences, and Department of Mechanical Engineering,
e-mail: sundees@clemson.edu
Clemson University
, Clemson, SC 29634
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Dimitri Nowak
Dimitri Nowak
Department of Mathematical Sciences,
e-mail: dimitrn@clemson.edu
Clemson University
, Clemson, SC 29634
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James A. Reneke
Department of Mathematical Sciences,
Clemson University
, Clemson, SC 29634e-mail: reneke@clemson.edu
Margaret M. Wiecek
Department of Mathematical Sciences,
Clemson University
, Clemson, SC 29634e-mail: wmalgor@clemson.edu
Georges M. Fadel
Department of Mechanical Engineering,
Clemson University
, Clemson, SC 29634e-mail: geroges@clemson.edu
Sundeep Samson
Department of Mathematical Sciences, and Department of Mechanical Engineering,
Clemson University
, Clemson, SC 29634e-mail: sundees@clemson.edu
Dimitri Nowak
Department of Mathematical Sciences,
Clemson University
, Clemson, SC 29634e-mail: dimitrn@clemson.edu
J. Mech. Des. Nov 2010, 132(11): 111009 (9 pages)
Published Online: November 15, 2010
Article history
Received:
May 23, 2009
Revised:
October 18, 2010
Online:
November 15, 2010
Published:
November 15, 2010
Citation
Reneke, J. A., Wiecek, M. M., Fadel, G. M., Samson, S., and Nowak, D. (November 15, 2010). "Design Under Uncertainty: Balancing Expected Performance and Risk." ASME. J. Mech. Des. November 2010; 132(11): 111009. https://doi.org/10.1115/1.4002836
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