Jie Hu scite author profile

Jie Hu

3Publications

3Citation Statements Received

53Citation Statements Given

How they've been cited

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Affiliations

Ministry of Civil Affairs, University of Shanghai for Science and Technology, Jilin Agricultural Science and Technology University

Publications

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Wheelchair Automatic Docking Method for Body-Separated Nursing Bed Based on Grid Map

Zhu

Meng

et al. 2021

IEEE Access

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To improve the mode and precision of wheelchair/nursing-bed automatic docking, a novel central embedded wheelchair/nursing-bed automatic docking method based on grid map is proposed. Firstly, Laplace operator and Iterative Closest Point (ICP) algorithm are used to filter and match Lidar point cloud, and the linear features of V-shaped artificial landmark are fitted by Split-merge method and least square method. Then Extended Kalman Filter (EKF) is used to fuse Inertial Measurement Unit (IMU) and odometer data to realize the localization of the bed and wheelchair. Meanwhile, the grid map is used for path planning. Based on the center-line of the two rear wheels and the angular bisector of V-shaped artificial landmark, the wheelchair pose is adjusted in real-time to ensure that the wheelchair gradually approaches the bed along the angular bisector of V-shaped artificial landmark. The yaw angle is reduced by using the improved Proportion Integration Differentiation (PID). 9 sets of experimental data, ie. (x, y,  ) were collected at different starting positions during the docking process. The results show that the yaw angle of the wheelchair during the docking process is controlled within 2.5°, and the distance deviation between the final position and the ideal position of the wheelchair after docking is controlled within 0.02m. In the case of light interference with different luminous fluxes, the docking can still maintain good performance. The proposed docking algorithm has the robust performance of rapid response and low steady error, which can greatly improves the self-care ability of the bedridden elderly, and reduces the labor intensity of the nursing staff.

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Intelligent Parametric Adaptive Hybrid Active–Passive Training Control Method for Rehabilitation Robot

Zhuang

Zhu

et al. 2022

Machines

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Rehabilitation robots facilitate patients to take part in physical and occupational training. Most of the rehabilitation robots used in clinical practice adopt pure passive training or active training, which cannot sense the active participation of patients during passive training and lack adaptive dynamic adjustment of training parameters for patients. In this paper, an intelligent hybrid active–passive training control method is proposed to enhance the active participation of patients in passive training mode. Firstly, the patients’ joint mobility and maximum muscle power are modelized and calibrated. Secondly, the robot joints are actuated to train according to joint mobility and speed for two cycles. The human–machine coupled force interaction control model can recognize the patients’ active participation in the training process. Finally, the passive training joint motion speed for the next training cycle is adaptively updated by the proposed control method. The experimental results demonstrate that the control method can sense the patients’ active participation and adjust the passive training speed according to the patients’ active force interaction. In conclusion, the hybrid active–passive training control method proposed in this paper achieves the desired goal and effectively improves the patients’ rehabilitation effect.

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Study on a Novel Wearable Exoskeleton Hand Function Training System Based on EMG Triggering

Cao

Zhenping

et al. 2016

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Jie Hu

Wheelchair Automatic Docking Method for Body-Separated Nursing Bed Based on Grid Map

Intelligent Parametric Adaptive Hybrid Active–Passive Training Control Method for Rehabilitation Robot

Study on a Novel Wearable Exoskeleton Hand Function Training System Based on EMG Triggering

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