Gearbox design for uncertain load requirements using active robust optimization |
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Authors: | Shaul Salomon Gideon Avigad Robin C. Purshouse Peter J. Fleming |
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Affiliation: | 1. Department of Automatic Control and Systems Engineering, University of Sheffield, Sheffield, UK;2. Department of Mechanical Engineering, ORT Braude College of Engineering, Karmiel, Illinois, USA |
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Abstract: | Design and optimization of gear transmissions have been intensively studied, but surprisingly the robustness of the resulting optimal design to uncertain loads has never been considered. Active Robust (AR) optimization is a methodology to design products that attain robustness to uncertain or changing environmental conditions through adaptation. In this study the AR methodology is utilized to optimize the number of transmissions, as well as their gearing ratios, for an uncertain load demand. The problem is formulated as a bi-objective optimization problem where the objectives are to satisfy the load demand in the most energy efficient manner and to minimize production cost. The results show that this approach can find a set of robust designs, revealing a trade-off between energy efficiency and production cost. This can serve as a useful decision-making tool for the gearbox design process, as well as for other applications. |
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Keywords: | gearbox design adaptive design multi-objective optimization robust optimization active robustness |
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