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Disambiguation of "Chen, Baojun"

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Real-Time Locomotion Recognition Algorithm for an Active Pelvis Orthosis to Assist Lower-Limb Amputees.

, , , , , , , and . IEEE Robotics Autom. Lett., 7 (3): 7487-7494 (2022)

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Chen Chen

Chen Chen

Shih Chen Chen

Yi-Chen Chen

Chen-Loung Chen

 

Other publications of authors with the same name

Towards methodology and metrics for assessing lumbar exoskeletons in industrial applications., , , , and . MetroInd4.0&IoT, page 400-404. IEEE, (2019)Design and evaluation of a vibrotactile feedback system to improve volitional myoelectric control for robotic transtibial prostheses: A preliminary study., and . BioRob, page 1049-1054. IEEE, (2016)Design and characterization of a multi-joint underactuated low-back exoskeleton for lifting tasks., , , , , , , , and . BioRob, page 1146-1151. IEEE, (2020)Promise of using surface EMG signals to volitionally control ankle joint position for powered transtibial prostheses., , and . EMBC, page 2545-2548. IEEE, (2014)Combining human volitional control with intrinsic controller on robotic prosthesis: A case study on adaptive slope walking., and . EMBC, page 4777-4780. IEEE, (2015)Classification of Lifting Techniques for Application of A Robotic Hip Exoskeleton., , , , and . Sensors, 19 (4): 963 (2019)Joint transmission design for IRS-assisted MISO SWIPT systems., , , , , and . Signal Process., (2022)Two Dimensional Position-Based Visual Servoing for Soft Tissue Endomicroscopy., , , , and . IEEE Robotics Autom. Lett., 6 (3): 5728-5735 (2021)Real-Time Locomotion Recognition Algorithm for an Active Pelvis Orthosis to Assist Lower-Limb Amputees., , , , , , , and . IEEE Robotics Autom. Lett., 7 (3): 7487-7494 (2022)A Locomotion Intent Prediction System Based on Multi-Sensor Fusion., , and . Sensors, 14 (7): 12349-12369 (2014)