Hongliu Yu scite author profile

Hongliu Yu

4Publications

79Citation Statements Received

31Citation Statements Given

How they've been cited

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Affiliations

University of Shanghai for Science and Technology, Ministry of Civil Affairs, Hubei University of Science and Technology

Publications

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A Human Joint Torque Estimation Method for Elbow Exoskeleton Control

Liu

Chang

et al. 2020

Int. J. Human. Robot.

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Exoskeleton for motion assistance has obtained more and more attention due to its advantages in rehabilitation and assistance for daily life. This research designed an estimation method of human joint torque by the kinetic human–machine interaction between the operator’s elbow joint torque and the output of exoskeleton. The human elbow joint torque estimation was obtained by back propagation (BP) neural network with physiological and physical input elements including shoulder posture, elbow joint-related muscles activation, elbow joint position, and angular velocity. An elbow-powered exoskeleton was developed to verify the validity of the human elbow joint torque estimation. The average correlation coefficients of estimated and measured three shoulder joint angles are 97.9%, 96.2%, and 98.1%, which show that estimated joint angles are consistent with the measured joint angle. The average root-mean-square error between estimated elbow joint torque and measured values is about 0.143[Formula: see text]N[Formula: see text]m. The experiment results proved that the proposed strategy had good performance in human joint torque estimation.

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An investigation of behaviours of a single bubble in a uniform electric field

Wang

et al. 2006

Experimental Thermal and Fluid Science

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Design and Evaluation of a Novel Microprocessor-Controlled Prosthetic Knee

Cao

Chen

et al. 2019

IEEE Access

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Transfemoral amputees demand a mechatronic lower limb prosthesis as technical substitute for restoring their gait functions. Prosthetic knee is the key component of a transfemoral prosthesis. The performance of the prosthetic knee determines the walking ability of the transfemoral amputee. This study proposed a novel microprocessor-controlled prosthetic knee with hydraulic damper and evaluated the performance of the prosthetic knee by function simulation and evaluation platform. The prosthetic knee with electrical-controlled hydraulic cylinder that could modulate knee flexion and extension damping properties independently and continuously by single motor was designed. Gait phase identification system based on knee angle sensor, inertial measurement units mounted on thigh connector and shank and force transducer embedded in shank was proposed. Gait phase identification and damping control strategy were determined by typical gait events during walking. Speed adaption and gait symmetry tests were conducted with a customized gait simulator to evaluate the performance of the proposed microprocessor-controlled prosthetic knee. The angle trajectories of the prosthetic knee were similar under a range of walking speeds. While the symmetry index values indicated that the stance phase was more asymmetry than swing phase, the peak swing flexion knee angles were consistently controlled between 60-70 degrees under different speeds. The knee angle symmetry was observed in different speeds during swing phase. It is suggested that the proposed microprocessor-controlled prosthetic knee could meet the fundamental demands of walking with smooth angular transition across different walking speeds.INDEX TERMS Microprocessor-controlled prosthetic knee, hydraulic damper, gait phase identification, gait symmetry, peak swing flexion knee angle.

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Target of physiological gait: Realization of speed adaptive control for a prosthetic knee during swing flexion

Cao

Zhao

et al. 2018

THC

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Hongliu Yu

A Human Joint Torque Estimation Method for Elbow Exoskeleton Control

An investigation of behaviours of a single bubble in a uniform electric field

Design and Evaluation of a Novel Microprocessor-Controlled Prosthetic Knee

Target of physiological gait: Realization of speed adaptive control for a prosthetic knee during swing flexion

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