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Disambiguation of "Yan, Zefeng"

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Development of An Assist Upper Limb Exoskeleton For Manual Handling Task.

, , , , , , , and . ROBIO, page 1815-1820. IEEE, (2019)

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Yan Yan

Shanshan Yan

Americanization in China: an analysis of General Motors and its strategies in China. Uni Mainz, (2009)

Yan Xu

Untersuchungen zur Verleimung von Holz und Holzspanplatten mit UF-Leimharzen und PMDI. TU Braunschweig, (2009)

Yan Zhang

Xueying Yan

 

Other publications of authors with the same name

Development of An Assist Upper Limb Exoskeleton For Manual Handling Task., , , , , , , and . ROBIO, page 1815-1820. IEEE, (2019)Mechanical Design and Preliminary Performance Evaluation of a Passive Arm-support Exoskeleton., , , , , , , and . IROS, page 3371-3376. IEEE, (2020)A Method for Arm Motions Classification and A Lower-limb Exoskeleton Control Based on sEMG signals., , , , and . ICARM, page 118-123. IEEE, (2019)Bionic Mechanical Design and Stair Ascending/Descending Gait Planning of A Lower-limb Exoskeleton Robot., , , , and . CBS, page 155-160. IEEE, (2018)An EEG-Based BCI System for Controlling Lower Exoskeleton to Step Over Obstacles in Realistic Walking Situation., , , , and . ICARCV, page 1609-1614. IEEE, (2018)Stairs Reconstruction with 3D Point Cloud for Gait Generation of Lower Limb Exoskeleton Robot., , , , , and . ROBIO, page 2019-2024. IEEE, (2019)Real-time Active Control of a Lower Limb Exoskeleton Based on sEMG., , , , , and . AIM, page 589-594. IEEE, (2019)Development of A Non-Power Waist Assist Device and IEMG-Based Evaluation of Assist Effect., , , , , and . ICARM, page 99-104. IEEE, (2019)On-line Dynamic Gait Generation Model for Wearable Robot with User's Motion Intention., , , , , and . ICIA, page 347-352. IEEE, (2018)The EEG-based Lower Limb Exoskeleton System Optimization Strategy Based on Channel Selection., , , , , and . RCAR, page 1-6. IEEE, (2019)