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Title: | Design optimization via surrogate modeling and space mapping: the why, the what, and the how |
Authors: | Bandler, John Cheng, Q.S. Koziel, S. Madsen, K. |
Keywords: | space mapping;surrogate modeling;design optimization;engineer’s “feel”;engineering optimization;electromagnetic optimization;implicit space mapping;crashworthiness design;companion models;aggressive space mapping;Broyden update;multiplexer optimization;mental models;tuning space mapping |
Publication Date: | 21-Sep-2009 |
Citation: | Bandler, John, Q.S Cheng, S. Koziel, and K. Madsen, “Design optimization via surrogate modeling and space mapping: the why, the what, and the how,” Reykjavik University, Iceland, September 21, 2009. |
Abstract: | Do you need an engineering design but your optimization algorithms threaten hundreds of costly high-fidelity simulations, and perhaps days or weeks of CPU time? Consider an underlying surrogate model. Take the high-fidelity simulator out of the classical optimization loop. Use space mapping. Optimization via space mapping involves the iterative enhancement of surrogates. Such surrogates arise in a number of ways. A popular approach is through fast-to-compute, physically-based “coarse” models that describe the expensive “fine” model behavior relatively well. A space mapping algorithm then provides excellent designs after only a handful of high-fidelity simulations. Space mapping mimics the way the brain relates new objects or images with familiar objects, images, reality, or experience. The methodology follows the traditional experience and intuition of the engineer, yet is amenable to mathematical treatment. It offers a quantitative explanation for an expert’s “feel” for a problem. Following Bandler’s 1993 concept, space mapping methodology continues to provide success in diverse areas: electronic, photonic, antenna, and magnetic systems; civil, mechanical, and aerospace engineering structures, including automotive crashworthiness design. Corporations that have incorporated space mapping into their design portfolios include Philips, Saab, and Com Dev. We focus on why, when, and how the intuitive space mapping procedure works. We provide microwave engineering examples involving commercial electromagnetic simulators. Two IEEE Microwave Magazine articles complement our presentation, one published in February 2008, the second in December 2008. |
Description: | Slides for an invited seminar presented on September 21, 2009 at the Engineering Optimization and Modeling Center, Reykjavik University, Iceland. Invited by S. Koziel, one of Bandler’s frequent collaborators. Bandler returned to Reykjavik several times in subsequent years to collaborate and participate in workshops and seminars. |
URI: | http://hdl.handle.net/11375/28833 |
Appears in Collections: | John Bandler Slides |
Files in This Item:
File | Description | Size | Format | |
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Bandler_Design_Optimization_via_Surrogate_Modeling_Space_Mapping_Reykjavik_U_September_21_2009.pdf | 1 MB | Adobe PDF | View/Open | |
Bandler_Design_Optimization_via_Surrogate_Modeling_Space_Mapping_Reykjavik_U_September_21_2009.ppt | 2.15 MB | Microsoft Powerpoint | View/Open |
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