Bionic hand control system and control method based on myoelectric bracelet

A technology of control system and bionic hand, which is applied in the field of myoelectric prosthetics, can solve the problems of wrong control instructions of prosthetics, the effect is not very good, and the accuracy of recognition is not considered enough, so as to reduce the complexity of the program, improve the user experience, and improve the recognition rate effect

Active Publication Date: 2018-10-26
安徽哈工标致医疗健康产业有限公司
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  • Summary
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  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The scheme does not consider the accuracy of recognition enough
Moreover, the computational load of the neural network classifier is too large, which is not conducive to the real-time performance of the system.
At the same time, only using myoelectric signals for control, the effect is not very good so far
In addition, most of the existing prosthetic control systems use factory settings. In the control system, the corresponding relationship between the myoelectric signal and the action command to be executed is established. The electrical signal is different from the preset myoelectric signal corresponding to the action in the control system, which will cause the control system to issue wrong control commands to the prosthesis, so that the action of the prosthesis cannot truly reflect the user's intention and affect the user experience

Method used

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  • Bionic hand control system and control method based on myoelectric bracelet
  • Bionic hand control system and control method based on myoelectric bracelet
  • Bionic hand control system and control method based on myoelectric bracelet

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Effect test

Embodiment 1

[0035] like figure 1 As shown, the present invention provides a bionic hand control system based on myoelectric wristband, the control system includes an acquisition module, a control module, and an execution module, and the acquisition module and the execution module are respectively connected to the control module;

[0036] The collection module adopts a myoelectric wristband to collect information such as the user's myoelectric signal and the direction, speed, and acceleration of the built-in gyroscope, and sends the collected information to the control panel through wireless communication. module;

[0037] Specifically, the acquisition module is implemented in the form of a myoelectric bracelet. In this embodiment, the user wears a myoelectric bracelet and records 1000 sets of data of different actions. The main actions include but are not limited to clenching, opening, OK, shooting, Turn down, turn up, turn in, turn out, etc.

[0038] After the signal is collected, use ...

Embodiment 2

[0072] like image 3 As shown, the present invention provides another bionic hand control system based on myoelectric wristband. The difference between this embodiment and Embodiment 1 is that the control system of this embodiment also includes the control system and further includes error correction The feedback module, the action designation module and the display module, the error correction feedback module, the action designation module and the display module are respectively connected with the control module;

[0073] The error correction feedback module is used for when the control result of the control system cannot reflect the user's true intention, the user notifies the control module through the error correction feedback module, and triggers the control system to enter the self-learning error correction process;

[0074] Specifically, when the control result of the control system cannot reflect the user's real intention, for example, the control result of the control...

Embodiment 3

[0081] like Figure 4 , is a schematic flow chart of the bionic hand control method based on the myoelectric bracelet in the present invention. The control method includes the following steps:

[0082] The acquisition module uses a myoelectric wristband to collect the user's myoelectric signal and the direction, speed, acceleration and other information of the built-in gyroscope, and sends the collected information to the control module through wireless communication;

[0083] Specifically, the acquisition module is implemented in the form of a myoelectric bracelet. In this embodiment, the user wears a myoelectric bracelet and records 1000 sets of data of different actions. The main actions include but are not limited to clenching, opening, OK, shooting, Turn down, turn up, turn in, turn out, etc.

[0084] After the signal is collected, use wireless transmission technology, such as WiFi, ZigBee, Bluetooth, etc., to send the collected information to the control module through...

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Abstract

The invention provides a bionic hand control system and control method based on a myoelectric bracelet. The bionic hand control system comprises an acquisition module, a control module and an execution module, wherein the acquisition module is used for collecting myoelectric signals of a user and the direction, speed, accelerated speed of a built-in gyroscope and other information and sending thecollected information to the control module through a wireless mode; the control module is used for receiving the signals sent by the acquisition module, processing the signals, extracting feature values, performing feature dimension reduction, classifying and recognizing the signals according to a pre-trained classifier, and sending a corresponding execution instruction to the execution module and a display module according to a classified result; and the execution module is used for receiving and executing an instruction issued by the control module, mapping the instruction to the motion state of each motor and controlling the action of a bionic hand. The bionic hand control system and control method based on the myoelectric bracelet have the advantages that the recognition rate of the system is improved, the program complexity is reduced, the real-time performance of the system is improved, accurate motion control can be made on artificial limbs for different users through a self-learning error-correcting mechanism, and the user experience is improved.

Description

technical field [0001] The invention relates to the field of myoelectric prosthesis, in particular to a bionic hand control system and control method based on a myoelectric bracelet. Background technique [0002] According to the 2006 National Bureau of Statistics sample survey data on my country's disabled population, among the various types of disabled people in the country, the physically disabled population is the largest, accounting for 24.12 million people, accounting for 29.07% of the total disabled population. Due to accidents, birth defects, diseases, natural disasters and other reasons, the number of people with physical disabilities is still increasing. Therefore, there is a huge market for prosthetic hands. At present, the domestically developed myoelectric prosthetic hands are still based on a single action mode, and the high-end myoelectric prosthetic hands with multiple action modes mainly rely on imports. Moreover, most existing prosthetic hands have the di...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61F2/72A61F2/54
CPCA61F2/54A61F2/72
Inventor 王飞张岩岭李亚名陶睿鹏程干张彤旭于振中李文兴
Owner 安徽哈工标致医疗健康产业有限公司
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