The Impact of Evolutionary Computation on Robotic Design: A Case Study with an Underactuated Hand Exoskeleton

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2024

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Institute of Electrical and Electronics Engineers Inc.

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Robotic exoskeletons can enhance human strength and aid people with physical disabilities. However, designing them to ensure safety and optimal performance presents significant challenges. Developing exoskeletons should incorporate specific optimization algorithms to find the best design. This study investigates the potential of Evolutionary Computation (EC) methods in robotic design optimization, with an underactuated hand exoskeleton (U-HEx) used as a case study. We propose improving the performance and usability of the U-HEx design, which was initially optimized using a naive brute-force approach, by integrating EC techniques such as Genetic Algorithm and Big Bang-Big Crunch Algorithm. Comparative analysis revealed that EC methods consistently yield more precise and optimal solutions than brute force in a significantly shorter time. This allowed us to improve the optimization by increasing the number of variables in the design, which was impossible with naive methods. The results show significant improvements in terms of the torque magnitude the device transfers to the user, enhancing its efficiency. These findings underline the importance of performing proper optimization while designing exoskeletons, as well as providing a significant improvement to this specific robotic design. © 2024 IEEE.

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Beijing NOKOV Science and Technology Co., Ltd.; et al.; Kawasaki Heavy Industries, Ltd.; Kuka AG; Schunk SE and Co. KG; ShangHai CHINGMU Tech Ltd

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Proceedings - IEEE International Conference on Robotics and Automation -- 2024 IEEE International Conference on Robotics and Automation, ICRA 2024 -- 13 May 2024 through 17 May 2024 -- Yokohama -- 201702

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5519

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5525