A method for adjusting the complexity of reference trajectories for active training of upper limb rehabilitation robots based on Bayesian optimization

A rehabilitation robot and reference trajectory technology, which is applied to manipulators, gymnastics equipment, sports accessories, etc., can solve the problem that patients cannot do motor learning, etc., and achieve the effect of being conducive to rehabilitation training, less iterations, and fast adaptive adjustment.

Active Publication Date: 2021-04-13
SOUTHEAST UNIV
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Problems solved by technology

However, studies have shown that constant training tasks will cause patients to generate memory and cannot achieve real motor learning, and increasing task variability / diversity can improve motor skill learning and memory

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  • A method for adjusting the complexity of reference trajectories for active training of upper limb rehabilitation robots based on Bayesian optimization
  • A method for adjusting the complexity of reference trajectories for active training of upper limb rehabilitation robots based on Bayesian optimization
  • A method for adjusting the complexity of reference trajectories for active training of upper limb rehabilitation robots based on Bayesian optimization

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Embodiment Construction

[0031] The technical solutions of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0032] The present invention designs an upper limb rehabilitation robot active training reference trajectory complexity adjustment method based on Bayesian optimization, such as figure 1 As shown, the steps are as follows:

[0033] Step 1: Substitute the teaching trajectory x and the teaching force f into the human-computer interaction dynamic system to obtain the attractor y, and use the Gaussian mixture model GMM and Gaussian mixture regression GMR to model the attractor y, and obtain a comprehensive multiple demonstration experience The reference attractor y * ;

[0034] Step 2: Select the time taken to complete the training task b T , motion track error b E and motion track compliance b S As the sports performance index of the subject, the sports performance index vector b=[b T ,b E ,b S ];

[0035]Step 3: Determine the task tr...

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Abstract

The invention discloses a method for adjusting the complexity of reference trajectories for active training of an upper limb rehabilitation robot based on Bayesian optimization. The steps are as follows: establishing a training task model, selecting a motion performance index, determining the complexity of the task trajectory, and learning the complexity of the motion performance index and the task trajectory. The functional relationship between degree parameters and the adaptive adjustment of training tasks. Since the subject's motor learning ability may change during the training process, the present invention monitors the subject's exercise performance in each round of training, and adaptively adjusts the difficulty of the training task according to the subject's exercise performance, increasing the variability of the task. Can improve the rehabilitation training effect of the subjects. The present invention monitors the sports performance of different subjects, can realize individualized self-adaptive adjustment of training tasks for each subject, and can reduce the boring and cumbersome work of therapists / technicians adjusting task difficulty for different subjects in real time increase the efficiency of rehabilitation training.

Description

technical field [0001] The invention belongs to the field of upper limb rehabilitation robots, and in particular relates to a method for adjusting the complexity of an active training reference trajectory of an upper limb rehabilitation robot. Background technique [0002] According to statistics, more than 20% of stroke patients cannot survive due to lack of timely treatment, and more than 75% of survivors are unable to take care of themselves due to hemiplegia and motor dysfunction caused by stroke. The upper limbs of the human body play an important role in daily life activities, and the hemiplegia or motor dysfunction of the upper limbs will directly lead to the loss of self-care ability of the patients. Practice has shown that exercise therapy based on the principle of brain plasticity is the most common rehabilitation treatment for upper limb hemiplegia today. Its exercise therapy, that is, through the long-term and repeated application of a certain intensity of force...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J9/00B25J9/16B25J11/00A63B23/12
CPCA63B23/12B25J9/0081B25J9/1661B25J9/1664B25J9/1679B25J11/0005
Inventor 曾洪李潇杨晨华余伟杰宋爱国石珂
Owner SOUTHEAST UNIV
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