CN209203257U - Waist and belly core muscle group integral rehabilitation training system based on EMG biofeedback - Google Patents

Abstract

The utility model is about the waist and belly core muscle group integral rehabilitation training system based on EMG biofeedback, the system has a controllable type training platform, a surface myoelectric system, a data processing centre, with a virtual reality scene interaction training system, it is used to treat and rehabilitation waist muscle damage illness.

Description

Whole rehabilitation training system of abdomen portion core muscle group based on flesh electricity biofeedback

Technical Field

The utility model relates to a clinical evaluation of abdomen portion core muscle group and training system especially combine the evaluation and the training system of flesh electricity biofeedback technique.

Background

The lumbar diseases comprise various clinical diseases such as lumbar and abdominal disc herniation, lumbar muscle strain, acute lumbar sprain, nonspecific lower back pain and the like, which do not seriously affect the daily living ability and the working ability of a patient and are often developed into chronic diseases which are difficult to completely cure. The severity and the inducement of the lumbar diseases are closely related to the health conditions of the core muscle groups of the waist and the abdomen, and the non-invasive conservative therapy which is the first choice for fundamentally solving the pain of the waist, the abdomen and the abdomen is used for training the core muscle groups of the waist and the abdomen and strengthening the strength and the muscle endurance.

At present, waist muscle training is to carry out targeted training on single muscle by designing one-to-one action according to the requirement of specific single target muscle to be trained. The method has good effect on diseases caused by single muscle. However, as mentioned above, the strength of the core muscle group of the whole abdomen and the ligament are not enough, and the training method is not ideal when a set of muscle groups needs to be adjusted and trained comprehensively. They have the disadvantage of neglecting the global training of the muscle groups.

In addition, the current single target muscle training mode is simple and boring, and lacks interest. Simple and tedious training activities lead to poor patient compliance. Repeated single movements are easy to cause the patient to have a tired mood.

To increase interest, clinical medicine has recently attempted to introduce Virtual Reality (VR) games into patient rehabilitation function training.

The virtual reality technology is a technology that a computer is used for generating a virtual environment (such as walking, fetching objects and the like) for simulating real objects, and a patient is 'thrown' into the environment through specific interaction tools such as stereoscopic glasses, sensing gloves and the like, so that the patient and the virtual environment can directly carry out natural interaction. In recent years, virtual reality technology has begun to be applied to limb function and speech rehabilitation training. The simulation environment is displayed by using a computer and professional software and hardware, so that virtual interaction and feedback in the aspects of vision, hearing, touch, kinesthesis and the like are realized, a patient can feel personally on the scene, and the patient can finish controllable functional movement and operation in the virtual environment, thereby achieving the purpose of function reconstruction. The virtual reality technology can not only improve the interest of exercise rehabilitation training by compiling a virtual environment, but also continuously excite and maintain the interest of repeated exercise of the patient through various feedback. The development of the virtual reality technology fundamentally changes the traditional exercise rehabilitation mode and really combines labor and ease.

Although some virtual reality training games aiming at lumbar muscle injury exist at present, the virtual reality training games are followed by simulation type training programs, and the training programs of man-machine interaction are lacked. The reason for this is that the waist muscle training action is not intuitive, and the patient often can not experience the autonomic action according to the life of the past, the cooperation is taken exercise. Unlike the training of the muscles of the four limbs, the patient can know how to act by visually observing the hand and throwing the foot and the life experience of the patient. The patient that general limbs activity can not or be restricted, like hemiplegia patient, scapulohumeral periarthritis patient, upper and lower limb muscle injury patient can be under the virtual reality image guidance, carry out directly perceived and the patient can experience the action exercise that easily understands based on it self. For example, the wrist strength and the upper arm muscles can be exercised, basketball shooting can be performed, and a patient who is difficult to walk can perform a mountain climbing game. The patient can do the exercise by himself, and the action is the action which is experienced by the patient or can be understood based on the experience. The correct action of waist muscle exercise, general people do not have this aspect of life experience, can only follow the motion simulation of image, can not accomplish man-machine interaction.

Although the virtual reality game has been applied to the case of lumbar muscle injury, the virtual reality game is a program for a single target muscle, and there is no virtual reality training program for the overall rehabilitation training of the lumbar and abdominal core muscle group. The reason is that it is not easy to design a virtual reality rehabilitation game which contains a plurality of actions and can exercise a plurality of waist and abdomen core muscle groups and ligaments simultaneously, and perhaps the virtual reality rehabilitation game cannot reach the single virtual reality game force.

At present, evaluation means of muscle strength and rehabilitation training effect of the core muscles of the waist and the abdomen are lagged behind. The evaluation is generally carried out by using a conventional evaluation chart (questionnaire) system, i.e., by observing the physical activity of the walking. However, the manual measurement and evaluation has high requirements on subjective judgment ability of doctors, and quantitative evaluation is difficult.

Another conventional way to assess the core muscle group of the abdomen is to introduce a protractor or other tool to measure the angle of the lumbar vertebrae. However, the method has high requirements on the manpower, and one doctor can only measure one patient at a time, so that the method cannot meet the requirements of the current rehabilitation training population.

Another conventional evaluation method is to take X-ray film to judge and evaluate.

However, the above evaluation methods are both before or after the rehabilitation training, and cannot timely record, store and evaluate the dynamic change data and the dynamic training effect in the rehabilitation training of the waist and abdomen core muscle group. In clinical rehabilitation, it is found that real-time information of the rehabilitation training process is increasingly needed, so that the training condition can be scientifically evaluated and the unsuitable rehabilitation training process can be timely adjusted in the rehabilitation training process to obtain the optimal training effect. In addition, real-time rehabilitation training data are converted into visual accumulated scores, and the condition that rehabilitation trainers want to understand the improvement of self function level and body function can be met.

In recent years, a surface electromyographic signal detection method is applied to medical diagnosis and physical training.

Surface electromyogram (sEMG) is guided from the skin Surface through electrodes, records bioelectric signals during the activity of a neuromuscular system, and can accurately reflect the muscle contraction condition. The surface electromyography technology is applied to sports training, and target muscle contraction and fatigue conditions in sports, different muscle contraction sequences and coordination are analyzed. Particularly, in the gradual load training, the surface myoelectricity has the advantages of simple and convenient detection process, small interference to actions, continuous detection, intuition, reliability and the like, and can ensure the accuracy of muscle evaluation and the training safety in the gradual load training test process.

Electromyographic biofeedback therapies have recently been developed based on surface electromyographic signal detection methods. The therapy is a method for recording weak electric signals during muscle contraction by means of surface myoelectric receiving equipment, converting the weak electric signals into easily perceived visual or auditory signals, and enabling a patient to adjust the muscle contraction degree according to the visual/auditory signals and to train himself. The exercise rehabilitation training device can provide feedback of training results of each time and achievement feedback after each group of exercises for the patient to perform exercise rehabilitation training, and is beneficial to improving the awareness and training enthusiasm of the patient on muscle contraction conditions. At present, the technology is applied to the rehabilitation of the paralyzed limb movement function of brain injury or spinal cord injury.

Although the myoelectric biofeedback therapy can inform the patient who receives rehabilitation training whether the training action is correct or not in time, the patient with muscle damage can hardly reach the training standard as required at one time. Rehabilitation training confidence and training motivation of trained patients may also be frustrated if the system feedback always gives a negative assessment of failure to meet standards.

The current electromyographic biofeedback rehabilitation training therapy is carried out by a medical surface electromyographic signal detection method. Its design is disease and non-disease as the demarcation point, and is not completely suitable for the rehabilitation training medical treatment aiming at the disease to non-disease process, and it lacks the training selection of the transition period.

The above prior art techniques have their respective disadvantages, although they have their respective advantages. In terms of the whole technologies, the biggest defects of the technologies are that the technologies are independently used and cannot integrate the advantages of all families to eliminate the advantages of all families, so that a whole with a synergistic effect is formed.

Disclosure of Invention

The present invention has been made in view of the above prior art problems to alleviate or eliminate one or more problems of the prior art, and at least provides a useful choice.

In order to realize the above purpose, the utility model provides a waist and abdomen core muscle group integral rehabilitation training system which integrates an electromyographic biofeedback medical system and a virtual reality game system and increases a data processing center and a controllable type training movable platform.

The utility model provides a whole rehabilitation training system of abdomen portion core muscle group.

The utility model provides a waist and abdomen core muscle group and/or training effect evaluation system.

Drawings

The present invention may be better understood with reference to the following drawings. The drawings are for illustrative purposes only and are not drawn to scale nor to limit the scope of the present disclosure.

Fig. 1 is a schematic diagram of the system architecture of the waist and abdomen core muscle group damage or insufficient muscle strength evaluation and rehabilitation training system based on myoelectric biofeedback of the present invention.

Fig. 2 is the utility model discloses impaired or the not enough evaluation of muscle strength of abdomen portion core muscle group and rehabilitation training system's work flow schematic diagram based on flesh electricity biofeedback.

Fig. 3 is the utility model discloses impaired or the insufficient evaluation of muscle strength of abdomen portion core muscle group and rehabilitation training system's based on flesh electricity biofeedback theory of operation flow diagram.

Fig. 4 is the utility model discloses impaired or insufficient muscle power of abdomen portion core muscle group aassessment and whole rehabilitation training system based on flesh electricity biofeedback from signal acquisition to the reciprocal real-time operating principle flow diagram that changes of training treatment flow circulation.

Fig. 5 is a schematic diagram of a patch electrode attached to a core muscle group of the lower abdomen.

Detailed Description

The utility model discloses utilize virtual reality technique, surface flesh electricity feedback technique, data processing center, controllable motion platform to set up a more interesting and more effective whole rehabilitation training system of abdomen portion muscle.

The virtual reality technology enables the waist and abdomen core muscle group rehabilitation training system to realize the interaction between training actions and a virtual environment.

The surface electromyography feedback technology enables the rehabilitation training system for the core muscle groups of the waist and the abdomen to obtain the real-time feedback of the disease, the state of illness and the training effect of the core muscle groups of the waist and the abdomen of the patient.

The data processing center analyzes the surface electromyographic signals transmitted by the surface electromyographic analysis system, compares the surface electromyographic signals with disease thresholds in the database, determines the disease of the patient according to the disease conditions, compares the disease conditions with disease condition thresholds in the database, determines the disease damage degree of the waist and abdomen core muscle groups of the patient according to the disease damage degree, divides the disease condition grade of the waist and abdomen core muscle groups damage according to the disease damage degree, and takes the disease condition grade of the waist and abdomen core muscle groups damage as the initial baseline of the waist and abdomen core muscle group rehabilitation training.

The virtual reality scene interactive training system selects and recommends a suitable virtual reality game according to the disease condition and disease condition grade evaluation result of the data processing center, and if a plurality of choices exist, the trainee can select according to the interest of the trainee.

And the controllable motion platform correspondingly adjusts the inclination angle, the torsion amplitude and the like of the platform according to the disease condition grade evaluation result of the data processing center so as to increase or weaken the strength of rehabilitation training.

As shown in fig. 1, the utility model discloses a whole rehabilitation training system of abdomen portion core muscle group based on flesh electricity biofeedback includes: the system comprises a surface electromyography system, a data processing center, a virtual reality scene interactive training system and a controllable training platform. The surface electromyography system is provided with a plurality of patch electrodes and a surface electromyography system local machine, wherein the patch electrodes are attached to a single part of a trainee related to single damaged psoas muscle or a plurality of parts related to wholly damaged psoas and abdominal core muscle groups to collect surface electromyography signals of the damaged muscles or muscle groups of the waist and abdominal of the trainee, the patch electrodes are in wired connection or wireless connection with the surface electromyography system local machine, and the patch electrodes transmit the surface electromyography signals of the trainee to the surface electromyography system local machine;

the surface electromyography system local is used for preprocessing the surface electromyography signals transmitted from the patch electrodes, is in wired or wireless connection with the data processing center and transmits the preprocessed surface electromyography signals to the data processing center;

the data processing center is provided with a waist and abdomen muscle disease threshold database, a waist and abdomen muscle disease threshold database and a training effect threshold database and is used for carrying out comparison analysis and disease, disease and training effect evaluation on the preprocessed surface electromyographic signals transmitted by the surface electromyographic system local machine; the data processing center is in wired connection or wireless connection with the virtual reality scene interactive training system, and outputs the analysis and evaluation results of the surface electromyographic signals to the virtual reality scene interactive training system;

the virtual reality scene interactive training system is provided with a virtual reality scene interactive training system local machine and a virtual reality display window, wherein the virtual reality display window is in wired connection or wireless connection with the virtual reality scene interactive training system local machine, and the virtual reality scene interactive training system local machine selects a virtual reality game according to the analysis and evaluation results transmitted by the data processing center and displays the virtual reality game on the virtual reality display window;

the data processing center is in wired connection or wireless connection with the controllable training platform, the analysis and evaluation results of the surface electromyographic signals are transmitted to the controllable training platform, and the controllable training platform adjusts the static posture and/or the dynamic activity amplitude of the controllable training platform according to the analysis and evaluation results of the surface electromyographic signals transmitted by the data processing center;

as shown in fig. 2, the muscle assessment and training system based on electromyographic biofeedback of the present invention starts with the system start-up initialization. The patient lies on the controllable motion platform, the patch electrode is attached, the patient does some basic actions according to the requirements of doctors, the patch electrode collects surface electromyographic signals and transmits the surface electromyographic signals to a surface electromyographic system, the surface electromyographic system carries out preprocessing such as noise reduction and amplification on the surface electromyographic signals, and then the surface electromyographic system transmits the preprocessed surface electromyographic signals to the data processing center; the data processing center compares the surface electromyographic signals with a storage threshold value, the severity of an illness state is determined, a rehabilitation training baseline is established, the data processing center transmits rehabilitation training baseline information to the virtual reality scene interactive training system, the virtual reality scene interactive training system selects and recommends a proper virtual reality game according to the rehabilitation training baseline information, and meanwhile, the data processing center transmits the rehabilitation training baseline information to a controllable training platform. And the controllable training platform determines the posture of the platform according to the result of the data processing center so as to match with the strength of rehabilitation training. In the rehabilitation training process, the surface electromyography system can collect surface electromyography activity signals in real time and output the surface electromyography activity signals to the data processing center. The data processing center can analyze the surface electromyographic activity signals in stages, associates the electromyographic biofeedback with a rehabilitation training effect in advance through analysis software, establishes a mapping relation based on the electromyographic biofeedback and the training effect, compares the surface electromyographic activity signals with a training effect threshold value preset by the data processing center, determines a rehabilitation training baseline again according to the comparison result, transmits the re-determined rehabilitation training baseline signals to the virtual reality scene interactive training system and the controllable training platform, and adjusts and optimizes a training scheme and a training difficulty in time.

As shown in fig. 3 and fig. 4, the rehabilitation training method of the whole rehabilitation training system for the core muscle group of the abdomen and the abdomen based on myoelectric biofeedback of the utility model comprises five basic steps of pre-diagnosis, disease level determination, virtual reality game recommendation, staged secondary evaluation and accurate control.

Firstly, pre-diagnosing, wherein a trained patient is clinically and manually pre-diagnosed by a doctor and/or a physical therapist to judge whether the lumbar and abdominal core muscle group is damaged or the muscle strength is insufficient;

secondly, determining the disease condition grade, if the patient is diagnosed as one of the indications by the artificial preliminary diagnosis, the medical staff pastes the patch electrodes to the parts of the rectus abdominis, the transversus abdominis, the oblique muscles in the abdomen, the oblique muscles outside the abdomen, the erector spinae muscles, the multifidus muscles and the chest and lumbar fascia of the waist and the abdomen of the patient, wears virtual reality glasses, the patient finishes a group of basic actions and stimulates the muscle activities on a controllable training platform according to the prompt of a screen, the training of the controllable training platform is firstly carried out on different patients or the training of the controllable training platform is carried out on the same patient at different time, the surface electromyography system collects the feedback signals of the patch electrodes in a wireless or wired signal mode such as wifi and bluetooth, the electric signals are converted into analog signals through preprocessing such as filtering and electric signal amplification, the disease condition evaluation is carried out according to the initial surface electromyography signals, and the data processing center receives the signals collected and preprocessed by the surface electromyography system, analyzing to obtain a muscle surface electromyographic activity signal monitored by the patient in completing basic actions, comparing the muscle surface electromyographic activity signal with a threshold value of the waist and abdomen core muscle group damage or muscle strength insufficiency level set according to big data and statistics, judging the waist and abdomen core muscle group damage level or muscle strength insufficiency level, and outputting the evaluation result of the waist and abdomen core muscle group damage level or muscle strength insufficiency level to a controllable training platform and a virtual reality scene interactive training system;

thirdly, recommending a virtual game, recommending a most suitable and targeted virtual game training scheme by a virtual reality scene interaction system according to a signal output by a data processing center, adjusting the controllable training platform to a corresponding angle according to the signal output by the data center, wherein the same type of virtual game has a plurality of virtual reality programs with different training difficulties, and the virtual reality programs with different training difficulties correspond to different angles of the controllable training platform;

fourthly, real-time evaluation, as shown in fig. 4, during the training process of the patient in the controllable training platform, the surface electromyography system collects electromyography signals collected by the patch electrodes in stages, preprocesses the signals and outputs the signals to the data center, the data center analyzes the signals output by the surface electromyography system to obtain the muscle surface electromyography activity signals monitored by the patient during the process of finishing the virtual game, and the muscle activity state and the training intensity adaptability are evaluated in time;

and fifthly, performing accurate control, namely correspondingly increasing the training intensity, for example, increasing the angle of the controllable training platform, such as adjusting from 15 degrees to 20 degrees, or replacing games with higher training difficulty, otherwise, the training effect is poor, and the acquired data is poorer than the measurement and initial evaluation values of the baseline, such as correspondingly reducing the angle of the controllable training platform, such as adjusting from 15 degrees to 10 degrees, or replacing games with relatively lower training difficulty, so that the pertinence of the training is improved, and the real-time assessment and the accurate control in the rehabilitation training process of the patient are realized.

As shown in fig. 5, the core muscle group of the lower abdomen and the upper abdomen mainly includes rectus abdominis (1), transverse abdominis (2), oblique abdominis (5), oblique abdominis (6), erector spinae (3), multifidus (4), thoracolumbar fascia (7), and the like. The muscle positions and indications are listed in table 1.

TABLE 1 indications and standard positions of patch electrodes

The following lumbago (Low Back Pain LBP) rehabilitation training is taken as an example:

in clinic, aiming at a typical LBP patient, training mainly aiming at a Local core muscle group (Local core muscle) is generally adopted. The local core muscle group mainly includes multifidus muscles and transverse abdominals. The following is a brief description of the practical application of the present invention, taking the training of the transverse abdominalis of LBP as an example.

The clinician and physical therapist diagnostic assessment confirmed the diagnosis of low back pain symptoms.

The patient lies down under medical personnel's guide on controllable formula training platform, and medical personnel paste the paster electrode on multifidus muscle and transverse abdominal muscle according to the standard, take virtual reality display window for the patient. The patient completes a group of basic actions according to the action instructions of the visual window to stimulate the activity of multifidus muscles and transverse abdominals, the surface electromyography system collects the electric signals collected by the patch electrodes in a wireless mode or a wired mode such as WiFi/Bluetooth and the like, and the collected electric signals are preprocessed in a filtering mode, an electric signal amplification mode and the like and then output to the data processing center in a wireless mode or a wired mode.

The data processing center performs linear, nonlinear time domain, frequency domain analysis, fitting and the like on data input by the surface electromyography system to obtain multifidus and transverse abdominalis surface electromyography signals monitored by the patient when the patient completes basic actions, compares the multifidus and transverse abdominalis surface electromyography signals with a set threshold value, evaluates the injury grade or insufficient muscle strength grade of the multifidus and the transverse abdominalis, and outputs the evaluation result to the virtual reality scene interaction system and the controllable motion platform on the assumption that the evaluation grade is medium low back pain.

The virtual reality scene interaction system recommends medium-intensity training for the transverse abdominalis and multifidus muscles according to the medium-low back pain symptoms evaluated by the data processing center, for example, one training is a flat plate support on an unstable plane, and the angle of the controllable training platform is adjusted to a certain angle (for example, 15 degrees) by the controllable training platform according to the medium-intensity training requirement. And the patient plays a corresponding game according to the display picture of the visual window in the virtual reality scene interaction system. In the training process of a patient on the controllable training platform, the surface electromyography system can collect signals collected by the patch electrodes in stages, preprocesses the signals and outputs the signals to the data processing center, and the data processing center analyzes, processes and monitors the training effect and evaluates the current state and the training intensity of muscles in real time. If the result of comparing multiple times of data before and after (specifically according to the set standard of the system) shows that the training effect of the multifidus muscle and the transverse abdominalis is good, and the acquired signals are stable, namely, the training is correspondingly increased to increase the angle of the controllable training platform (for example, the angle is adjusted from 15 degrees to 30 degrees), or the game with higher training difficulty is replaced, otherwise, the training effect is poor, and the acquired data is poorer than the measurement and initial evaluation values of the baseline, namely, the angle of the controllable training platform is correspondingly decreased (for example, the angle is adjusted from 15 degrees to 10 degrees), or the game with lower training difficulty is replaced, so that the pertinence and the accurate control of the training are improved.

The utility model discloses a preferred embodiment, data processing center passes through analysis software and associates myoelectricity biofeedback and abdomen portion core muscle group rehabilitation training effect, establishes the mapping relation of myoelectricity biofeedback and training effect, and in abdomen portion core muscle group rehabilitation training process, data processing center carries out the analysis to the feedback signal of the surface myoelectricity of real-time acquisition monitoring, will the feedback signal of surface myoelectricity contrasts with data processing center's predetermined training effect threshold value, divides the grade of training effect, data processing center gives training effect grade information transmission virtual reality sight interactive training system, virtual reality sight interactive training system shows training effect information in the virtual reality window with the form of grade. The grade is good, the training interest and the confidence of a rehabilitation trainer can be improved, meanwhile, the data processing center transmits training effect grade information to the controllable motion platform, the grade stably exceeds the virtual reality game training threshold value, the posture and the action of the controllable motion platform can be adjusted, the training difficulty is improved, the grade is continuously lower than the virtual reality game training threshold value, the posture and the action of the controllable motion platform can be adjusted, the training difficulty is reduced, the grade cannot meet the minimum requirement of the virtual reality game training difficulty grade, and the virtual reality scene interactive training system can adjust the virtual reality game.

In order to realize multi-sensory stimulation and dynamic physical experience, in a preferred embodiment of the invention, the controllable motion platform performs dynamic balancing, tilting and twisting actions under the command of the driving signal of the data processing center and in cooperation with the scene of the virtual reality game, so that the patient actively moves according to the guiding action of the virtual game.

In a preferred embodiment of the present invention, the controllable training platform may be a treadmill-like activity platform.

Additionally, be in the utility model discloses an embodiment, set up a plurality of inertia measuring Unit (inertia measurement Unit IMU) modules on the controllable formula training platform, the amplitude that every training action of full monitoring rehabilitation training person was accomplished to with monitoring data upload data processing center, data processing center will monitoring data and biological myoelectricity feedback's data are compared, and mutual evidences realize two-dimensional data analysis, further confirm the accuracy of data.

According to a preferred embodiment of the present invention, the patient follows the needs of a virtual game on the controllable training platform, adopting postures such as a supine posture, a prone posture, a kneeling posture, a standing posture, a squatting posture, a supporting posture, etc.

According to a preferred embodiment of the present invention, the virtual game for exercising the lumbar spine cluster organization as a whole is a surfing game.

According to a preferred embodiment of the present invention, the surface electromyography system of the present invention may be a 16-channel surface electromyography signal acquisition system, such as the Noraxon Telemyo system made in the united states.

According to a preferred embodiment of the present invention, the data processing center of the present invention may be a PC. The PC can be a physically independent PC, and can also be physically integrated into a surface electromyography system or a virtual reality scene interaction system.

Compared with the prior art, the utility model has the advantages that:

(1) the project organically combines a virtual reality technology and a myoelectric biofeedback system into rehabilitation assessment and training of muscle damage (including lumbar muscle damage), scientifically and accurately assesses the state of an illness and the degree of the illness, and realizes a personalized training scheme, thereby realizing the aim of accurate rehabilitation training aiming at personal traits or specific muscle groups;

(2) based on a virtual reality software platform, surface electromyographic signals are collected, real-time data analysis and on-site feedback are carried out, the training difficulty of a training task is adjusted in time, the training effect is enhanced, a bidirectional feedback model is established, and the training efficiency is further improved:

(3) the human-computer interaction type waist and abdomen core muscle group integral training can be realized;

(4) the interest of rehabilitation training and the rehabilitation training efficiency are remarkably improved through the abundant training environment and the on-site feedback information;

(5) the patient-controllable operating system may motivate the patient to participate in the training aggressiveness;

(6) personnel cost of medical institutions is reduced;

(7) aiming at the problems that the traditional training is simple and boring, the patient is easy to fatigue and the like, the boring training is changed into entertainment and rehabilitation through the training task grade setting, so that the patient can exercise in the entertainment, and the training effect of the patient is improved; and can reduce the psychological pressure of patients and dredge negative emotions in the game.

It should be noted that the above description is only illustrative and not limiting to the scope of the present invention. All technical solutions falling within the scope of the claims and their equivalents are within the scope of the present invention, for example, although the method and system described in the present invention are suitable for rehabilitation training of patients, they can also be used for physical training or body-building exercises with slight or no modification.

Claims (8)

1. A system for training the overall rehabilitation of a waist and abdomen core muscle group based on myoelectric biofeedback, which comprises:

a surface electromyographic system, wherein the myoelectric system,

a data processing center, a data processing system and a data processing system,

a virtual reality scenario interactive training system, and

a controllable training platform,

wherein,

the surface electromyography system is provided with a plurality of patch electrodes and a surface electromyography system local machine, the patch electrodes are attached to one or a plurality of core muscle group positions of any combination of abdominal rectus muscle, abdominal transverse muscle, intra-abdominal oblique muscle, extra-abdominal oblique muscle, erector spinal muscle, multifidus muscle and thoracolumbar fascia of a rehabilitation trainer according to different diseases to collect surface electromyography signals of waist and abdomen damaged muscles or muscle groups of a trainee, the patch electrodes are in wired connection or wireless connection with the surface electromyography system local machine, and the patch electrodes transmit the surface electromyography signals of the trainee to the surface electromyography system local machine;

the surface electromyography system local is used for preprocessing the surface electromyography signals transmitted from the patch electrodes, is in wired or wireless connection with the data processing center and transmits the preprocessed surface electromyography signals to the data processing center;

the data processing center is provided with a waist and abdomen muscle disease threshold database, a waist and abdomen muscle disease threshold database and a training effect threshold database and is used for carrying out comparison analysis and disease, disease and training effect evaluation on the preprocessed surface electromyographic signals transmitted by the surface electromyographic system local machine; the data processing center is in wired connection or wireless connection with the virtual reality scene interactive training system, and outputs the analysis and evaluation results of the surface electromyographic signals to the virtual reality scene interactive training system;

the virtual reality scene interactive training system is provided with a virtual reality scene interactive training system local machine and a virtual reality display window, the virtual reality display window is in wired connection or wireless connection with the virtual reality scene interactive training system local machine, and the virtual reality scene interactive training system local machine selects a virtual reality game according to the analysis and evaluation results transmitted by the data processing center and displays the virtual reality game on the virtual reality display window;

the data processing center is in wired connection or wireless connection with the controllable training platform, the analysis and evaluation results of the surface electromyographic signals are transmitted to the controllable training platform, and the controllable training platform adjusts the static posture and/or the dynamic activity amplitude of the controllable training platform according to the analysis and evaluation results of the surface electromyographic signals transmitted by the data processing center.

2. The myoelectric biofeedback-based lumbar spine core muscle group overall rehabilitation training system as recited in claim 1, wherein the virtual reality scenario interactive training system further comprises an intelligent wearable device, the intelligent wearable device is connected with the virtual reality scenario interactive training system locally through a wire or wirelessly, and the virtual reality scenario interactive training system locally transmits a corresponding tactile signal to the intelligent wearable device according to the content of a virtual reality program.

3. The myoelectric biofeedback-based waist and abdomen core muscle group overall rehabilitation training system as recited in claim 1, wherein the data processing center evaluates the surface myoelectric signals collected in real time during the training process by comparing with a preset training effect threshold in stages, and transmits the evaluated result to the controllable training platform and/or the virtual reality scene interactive training system to adjust the static posture and dynamic action of the controllable training platform and/or change a virtual reality game program.

4. An electromyographic biofeedback-based general rehabilitation training system for a lumbo-abdominal core muscle group as recited in claim 1, wherein the evaluation of the surface electromyographic signals by the data processing center is a qualitative evaluation of a condition and a quantitative evaluation of a condition.

5. A myoelectric biofeedback-based general rehabilitation training system for the core muscle groups of the lower abdomen and the upper abdomen as described in claim 3, wherein the staged evaluation of the surface electromyographic signals by the data processing center is quantitative evaluation of the disease condition and evaluation of the training effect.

6. An electromyography biofeedback-based total rehabilitation training system for the core muscle groups of the lower abdomen and the lower abdomen as recited in any one of claims 1, 2, 3, 4 and 5, wherein said data processing center is integrated with said virtual reality scenario interactive training system.

7. An electromyography biofeedback-based entire rehabilitation training system for the core muscle groups of the lower abdomen and abdomen of any one of claims 1, 2, 3, 4, and 5, wherein the virtual reality scenario interactive training system is integrated with the virtual reality display window.

8. An electromyography biofeedback-based general rehabilitation training system for the core muscle groups of the lower abdomen and lower back of the body as described in any one of claims 1, 2, 3, 4 and 5, wherein said data processing center is locally integrated with said surface electromyography system.