Efficient global surrogate modeling for reliability-based design optimization
By: Bichon, Barron J
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Contributor(s): Eldred, Michael S
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Publisher: New York ASME 2013Edition: Vol.135(1), Jan.Description: 1-13p.Subject(s): Mechanical Engineering![](/opac-tmpl/bootstrap/images/filefind.png)
Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
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School of Engineering & Technology Archieval Section | Not for loan | 2024-0640 |
Determining the optimal (lightest, least expensive, etc.) design for an engineered component or system that meets or exceeds a specified level of reliability is a problem of obvious interest across a wide spectrum of engineering fields. Various formulations and methods for solving this reliability-based design optimization problem have been proposed, but they typically involve accepting a tradeoff between accuracy and efficiency in the reliability analysis. This paper investigates the use of the efficient global optimization and efficient global reliability analysis methods to construct surrogate models at both the design optimization and reliability analysis levels to create methods that are more efficient than existing methods without sacrificing accuracy. Several formulations are proposed and compared through a series of test problems.
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