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Yuansheng Ning

Showing results (1-10 of 4) with videos related to

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International Journal of Molecular Sciences|December 11, 2022
H<sub>2</sub>S Enhanced the Tolerance of <i>Malus hupehensis</i> to Alkaline Salt Stress through the Expression of Genes Related to Sulfur-Containing Compounds and the Cell Wall in RootsHuan Li, Weiwei Zhang, Mengyuan Han, et al.
Scientific Reports|October 27, 2024
Upper limb exoskeleton rehabilitation robot inverse kinematics modeling and solution method based on multi-objective optimizationYuansheng Ning, Lingfeng Sang, Hongbo Wang, et al.
Medical & Biological Engineering & Computing|December 11, 2023
Design and analysis of a compatible exoskeleton rehabilitation robot system based on upper limb movement mechanismYuansheng Ning, Hongbo Wang, Ying Liu, et al.
Sensors (Basel, Switzerland)|October 27, 2022
sEMG-Based Gain-Tuned Compliance Control for the Lower Limb Rehabilitation Robot during Passive TrainingJunjie Tian, Hongbo Wang, Siyuan Zheng, et al.
Pageof 1

Showing results (1-10 of 4) with videos related to

Sort By:
Pageof 1
International Journal of Molecular Sciences|December 11, 2022
H<sub>2</sub>S Enhanced the Tolerance of <i>Malus hupehensis</i> to Alkaline Salt Stress through the Expression of Genes Related to Sulfur-Containing Compounds and the Cell Wall in RootsHuan Li, Weiwei Zhang, Mengyuan Han, et al.
Scientific Reports|October 27, 2024
Upper limb exoskeleton rehabilitation robot inverse kinematics modeling and solution method based on multi-objective optimizationYuansheng Ning, Lingfeng Sang, Hongbo Wang, et al.
Medical & Biological Engineering & Computing|December 11, 2023
Design and analysis of a compatible exoskeleton rehabilitation robot system based on upper limb movement mechanismYuansheng Ning, Hongbo Wang, Ying Liu, et al.
Sensors (Basel, Switzerland)|October 27, 2022
sEMG-Based Gain-Tuned Compliance Control for the Lower Limb Rehabilitation Robot during Passive TrainingJunjie Tian, Hongbo Wang, Siyuan Zheng, et al.
Pageof 1