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find Author "MENG Qiaoling" 5 results
  • Research progress on intelligent assessment system for upper limb function of stroke patients

    At present, the upper limb function of stroke patients is often assessed clinically using a scale method, but this method has problems such as time-consuming, poor consistency of assessment results, and high participation of rehabilitation physicians. To overcome the shortcomings of the scale method, intelligent upper limb function assessment systems combining sensors and machine learning algorithms have become one of the hot research topics in recent years. Firstly, the commonly used clinical upper limb functional assessment methods are analyzed and summarized. Then the researches on intelligent assessment systems in recent years are reviewed, focusing on the technologies used in the data acquisition and data processing parts of intelligent assessment systems and their advantages and disadvantages. Lastly, the current challenges and future development directions of intelligent assessment systems are discussed. This review is hoped to provide valuable reference information for researchers in related fields.

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  • Research of the training methods and structure design of intelligent knee prosthesis based on physiological gait

    The performance of intelligent prosthetic knee has an important effect on the realization of physiological gait of transfemoral amputees. A new type of single axis hydraulic damping knee prosthesis was designed based on the analysis of physiological gait. The training methods of the stance and swing phase were proposed. Knee prosthesis test was done through simulation and measurement device. The control target of peak flexion angle during swing of knee prosthesis is chosen to be 60–70°. When the damper valve closure was 0%, maximum swing-phase knee flexion angle of knee prosthesis were (86±2)°, (91±3)° and (97±3)° with the speed of 0.8 m/s, 1.2 m/s and 1.8 m/s, respectively. Once the valve closure was changed, maximum swing-phase knee flexion angle with different speeds could be adjusted between 60° and 70° and the required valve closure percentage were separately 25%, 40% and 70%. The damping adjustment law of intelligent knee prosthesis to achieve physiological gait was revealed.

    Release date:2018-10-19 03:21 Export PDF Favorites Scan
  • Study on gait symmetry based on simulation and evaluation system of prosthesis gait

    A software and hardware platform for gait simulation and system evaluation for lower limb intelligent prosthesis is proposed and designed, in order that the wearable symmetry effect of the intelligent knee prosthesis can be quantitatively analyzed by machine test instead of human wear test. The whole-body three-dimensional gait and motion analysis system instrument, a device to collect gait data such as joint angle and stride of adults, was used for extracting simulated gait characteristic curve. Then, the gait curve was fitted based on the corresponding joint to verify the feasibility of the test platform in the experiment. Finally, the developed artificial knee prosthesis was worn on the prosthetic evaluation system to quantitatively analyze the gait symmetry effect. The results showed that there was no significant difference in gait symmetry between the developed knee joints at different speeds, which could reach more than 88%. The simulation and evaluation of the prosthetic gait have good effects on the functional simulation and evaluation of the lower limb intelligent prosthesis.

    Release date:2020-02-18 09:21 Export PDF Favorites Scan
  • Study on the center-driven multiple degrees of freedom upper limb rehabilitation training robot

    With the aging of the society, the number of stroke patients has been increasing year by year. Compared with the traditional rehabilitation therapy, the application of upper limb rehabilitation robot has higher efficiency and better rehabilitation effect, and has become an important development direction in the field of rehabilitation. In view of the current development status and the deficiency of upper limb rehabilitation robot system, combined with the development trend of all kinds of products of the upper limb rehabilitation robot, this paper designed a center-driven upper limb rehabilitation training robot for cable transmission which can help the patients complete 6 degrees of freedom (3 are driven, 3 are underactuated) training. Combined the structure of robot with more joints rehabilitation training, the paper choosed a cubic polynomial trajectory planning method in the joint space planning to design two trajectories of eating and lifting arm. According to the trajectory equation, the movement trajectory of each joint of the robot was drawn in MATLAB. It laid a foundation for scientific and effective rehabilitation training. Finally, the experimental prototype is built, and the mechanical structure and design trajectories are verified.

    Release date:2018-08-23 03:47 Export PDF Favorites Scan
  • Discussion on the medicine-engineering interdisciplinary innovative cultivating mode of rehabilitation engineering postgraduates

    Rehabilitation engineering is an important branch of rehabilitation medicine. Relying on combination of medical and engineering research projects to carry out the cultivation of rehabilitation medicine-engineering interdisciplinary postgraduates of medical engineering is an important way to train high-quality composite innovative talents. This article introduces the medicine-engineering interdisciplinary innovative training model of rehabilitation engineering medical workers piloted by the Department of Rehabilitation Medicine of Xinhua Hospital Affiliated to Shanghai Jiao Tong University School of Medicine and the Research Institute of Rehabilitation Engineering and Technology of University of Shanghai for Science and Technology. By clarifying the objectives of medicine-engineering interdisciplinary postgraduates training, strengthening the construction of mentor teams, establishing multi-disciplinary postgraduates courses, improving teaching arrangements and apprenticeship plans, and encouraging the exchange of postgraduates with different research backgrounds, this training mode cultivates postgraduates to be guided by clinical problems in rehabilitation medicine to expand scientific research and research ideas, pomotes the transformation of research achievements and their application in clinical practice, and cultivates compound-type rehabilitation engineering research talents with post competence. The purpose is to provide a reference for the training of future composite rehabilitation engineering research talents.

    Release date:2020-06-25 07:43 Export PDF Favorites Scan
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