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International Journal of Automotive Technology

03.01.2025 | Materials and Recycling

Design Optimization for Minimizing Performance Deviations of Complex Vehicle Door Systems Using Virtual Manufacturing Big Data and Axiomatic Design

verfasst von: Sang Hyun Lee, Bumyong Yoon, Hyerin Kwon, Chang Man Seo, Jonghwan Suhr

Erschienen in: International Journal of Automotive Technology

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Abstract

This study introduces an innovative framework aimed at minimizing performance deviations in complex vehicle door systems by leveraging the principles of axiomatic design and virtual manufacturing big data. Utilizing the independence axiom of axiomatic design theory, an optimal design sequence is established for a vehicle door system. Analytical models for door opening and closing are developed, and surrogate models are constructed for weatherstrips in conjunction with machine learning techniques. Monte Carlo simulations are performed, enabling the generation of virtual manufacturing data and thereby facilitating a comprehensive analysis. The application of genetic algorithms with information content as the objective function can minimize vehicle performance variability, offering a promising approach for design optimization. This methodology not only demonstrates the potential for significantly reducing performance deviations but also highlights the effectiveness of integrating computational techniques with axiomatic design principles to enhance system predictability and quality control.

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Metadaten
Titel
Design Optimization for Minimizing Performance Deviations of Complex Vehicle Door Systems Using Virtual Manufacturing Big Data and Axiomatic Design
verfasst von
Sang Hyun Lee
Bumyong Yoon
Hyerin Kwon
Chang Man Seo
Jonghwan Suhr
Publikationsdatum
03.01.2025
Verlag
The Korean Society of Automotive Engineers
Erschienen in
International Journal of Automotive Technology
Print ISSN: 1229-9138
Elektronische ISSN: 1976-3832
DOI
https://doi.org/10.1007/s12239-024-00196-3

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