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Disambiguation of "Tu, Xikai"

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Design and Evaluation of the RUPERT Wearable Upper Extremity Exoskeleton Robot for Clinical and In-Home Therapies.

, , and . IEEE Trans. Syst. Man Cybern. Syst., 46 (7): 926-935 (2016)

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Shiwei Tu

Nguyen Tu

Changfeng Tu

Wei Tu

Chunling Tu

 

Other publications of authors with the same name

Optimizing Control of Passive Gait Training Exoskeleton Driven by Pneumatic Muscles Using Switch-Mode Firefly Algorithm., , , , and . Robotica, 37 (12): 2087-2103 (2019)Dynamic Model of Exoskeleton Based on Pneumatic Muscle Actuators and Experiment Verification., , , , , , and . Humanoids, page 334-339. IEEE, (2018)Design and single-parameter adaptive fuzzy control of pneumatic lower limb exoskeleton with full state constraints., , and . Robotica, 41 (3): 995-1014 (March 2023)A Data-Driven Reinforcement Learning Solution Framework for Optimal and Adaptive Personalization of a Hip Exoskeleton., , , , and . CoRR, (2020)A Data-Driven Reinforcement Learning Solution Framework for Optimal and Adaptive Personalization of a Hip Exoskeleton., , , , and . ICRA, page 10610-10616. IEEE, (2021)A Novel Telerehabilitation System Based on Bilateral Upper Limb Exoskeleton Robot., , , , and . RCAR, page 391-396. IEEE, (2019)A Robotic Assistance Personalization Control Approach of Hip Exoskeletons for Gait Symmetry Improvement., , , , and . IROS, page 6125-6132. (2023)Admittance Control Based Human-in-the-Loop Optimization for Hip Exoskeleton Reduces Human Exertion during Walking., , , , and . ICRA, page 6743-6749. IEEE, (2022)A Predictive Control for Pneumatic Muscle Actuators based Exoskeleton by Using MIMO Echo State Network., , and . ICARM, page 408-413. IEEE, (2019)