阅读说明：本技术 基于一次性电磁片采集脑电信号的adhd检测康复设备 (ADHD detection rehabilitation equipment for collecting electroencephalogram signals based on disposable electromagnetic sheet ) 是由 吕华伟 于 2021-03-19 设计创作，主要内容包括：本发明涉及儿童多动症检测和康复治疗领域,尤其涉及到一种基于一次性电磁片采集脑电信号的ADHD检测康复设备,包括动态脑电波采集放大仪和后台智能处理终端；动态脑电波采集放大仪包括电磁贴片电极和数据解析处理设备,电磁贴片电极包括电磁贴片和数据采集芯片,所述数据采集芯片的一端还电性连接有第一数据线,后台处理终端包括手推式移动设备和数据云处理终端,数据云处理终端包括用交互数据传输模块、算法解析模块、分级模块、康复训练模块；本发明采用便于拆卸安装的一次性电磁贴片电极,提高了医疗卫生要求,实时监测和传输儿童的脑电信号,使得监测数据更加准确和代表性,便于进行后续针对性的康复训练。(The invention relates to the field of children hyperkinetic syndrome detection and rehabilitation treatment, in particular to ADHD (ADHD detection and rehabilitation) equipment for acquiring electroencephalogram signals based on a disposable electromagnetic sheet, which comprises a dynamic brain wave acquisition amplifier and a background intelligent processing terminal; the dynamic brain wave acquisition amplifier comprises an electromagnetic patch electrode and data analysis processing equipment, wherein the electromagnetic patch electrode comprises an electromagnetic patch and a data acquisition chip, one end of the data acquisition chip is also electrically connected with a first data line, a background processing terminal comprises hand-push type mobile equipment and a data cloud processing terminal, and the data cloud processing terminal comprises an interactive data transmission module, an algorithm analysis module, a grading module and a rehabilitation training module; the disposable electromagnetic patch electrode is convenient to detach and mount, medical and health requirements are improved, electroencephalogram signals of children are monitored and transmitted in real time, monitoring data are more accurate and representative, and follow-up targeted rehabilitation training is facilitated.)

1. The utility model provides a ADHD detects rehabilitation device based on disposable electromagnetism piece gathers brain electrical signal which characterized in that: the brain wave analysis system comprises a dynamic brain wave acquisition amplifier used for acquiring brain wave signals and transmitting the signals, and a background intelligent processing terminal used for receiving the brain wave signals, processing and analyzing the brain wave signals;

the dynamic brain wave acquisition amplifier comprises an electromagnetic patch electrode for acquiring brain electrical signals of children and data analysis processing equipment for receiving and preprocessing the brain electrical signals monitored and collected by the children in real time;

the electromagnetic patch electrode comprises an electromagnetic patch for bonding, adsorption and fixation and a data acquisition chip for collecting brain wave signals of children, and one end of the data acquisition chip is also electrically connected with a first data line;

the data analysis processing equipment is electrically connected with the first data line through a second data line for transmitting electroencephalogram data, one end of the second data line is electrically connected with the data processing equipment, and the other end of the second data line is fixedly connected with the first data line through a plug-in mechanism;

the data analysis processing equipment comprises a shell, wherein a data receiver for receiving brain wave signals, a preprocessing module for carrying out noise reduction and denoising processing on the brain wave signals, an analysis module for carrying out analysis processing on the acquired brain wave original data, a data display module for carrying out relevant parameter display on the brain wave signal data of the analysis module, a signal amplifier for carrying out stripping and amplification processing on the brain wave signals and a network transmission module for transmitting the brain wave signal data acquired in real time are also arranged in the shell;

the data display module is installed on the front side of the shell in a clamping and embedding manner and comprises an equipment connection state module for displaying the acquisition state of the brain wave signals of the equipment, a battery electric quantity module for displaying the current electric quantity of the equipment, a brain wave oscillogram module for analyzing the brain wave signals and displaying the waveforms, a connection duration module for recording and displaying the connection service time of the current equipment and a signal intensity module for displaying the network data transmission signals of the equipment;

the background processing terminal comprises a hand-push type mobile device for placing the processing device and a data cloud processing terminal for electroencephalogram signal processing and algorithm analysis, wherein the hand-push type mobile device further comprises a medical diagnosis cart which is of an upper layer structure, a middle layer structure and a lower layer structure, a display used for a doctor to check brain wave real-time detection signals and user information of children and to make a customized rehabilitation scheme for the illness state of a patient is arranged on the upper layer of the medical diagnosis cart, a host processor used for being connected with the display is further arranged on the lower layer of the medical diagnosis cart, and a printer used for being connected with the host processor and printing signal data and user data is further arranged on the middle layer of the medical diagnosis cart;

the data cloud processing terminal comprises an interactive data transmission module, an algorithm analysis module, a grading module and a rehabilitation training module, wherein the interactive data transmission module is used for receiving electroencephalogram monitoring data and patient rehabilitation scheme data formulated by a doctor, the algorithm analysis module is used for carrying out core algorithm processing on the electroencephalogram data, the grading module is used for grading the attention of the child based on the algorithm analysis processing data, and the rehabilitation training module is used for guiding and adjusting the attention level of the child and the rehabilitation scheme formulated by the doctor based on the grading module; wherein the rehabilitation training module comprises a rapid concentration training module, an auditory attention training module, a visual attention training module and an attention duration training module;

the core algorithm index of the algorithm analysis module is as follows:

attention index Z: calculating according to the mean value of the attention variance within the diagnosis time, and reflecting the mean value of the attention within a period of time;

attention retention index X: calculating according to the attention data acquired when the child wears the equipment, wherein the attention data is used for expressing the length of attention keeping time;

attention jump index r: acquiring the mean value of the variance from the peak to the trough of attention data in a period of time when the child wears the equipment;

age G: participating in diagnosing the actual age of the child in months;

m is the continuous duration of attention above a standard value;

l is the standard value of attention

NL is the difference between the attention value N and the standard value L;

hyperactivity syndrome evaluation K: quantifying the state index of the children with the syndrome according to a core algorithm, and visually reflecting the current hyperactivity degree of the children;

NL = （nt1 - l,nt2 - l,......ntn - l）

when NLt > 0 and NLt +1 > 0

Mt + 1

Obtaining (M1, M2, M3..... Mt) wherein t < tn

Z = (M1+M2+M3+…+Mn)/n

X =〈(M1-Z)^2+(M2-Z)^2+(M3-Z)^2+…+(Mn-Z)^2〉╱n

r= 〈(N1-r)^2+(N2-r)^2+(N3-r)^2+…+(N2n-r)^2〉╱2n

K=

And quantizing and analyzing the comprehensive hyperactivity state index K of the child according to a core algorithm, so as to visually reflect the current hyperactivity degree of the child, perform hierarchical diagnosis, and perform hierarchical targeted guidance and rehabilitation training based on different hyperactivity state grades of the child.

2. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the data acquisition chip is arranged in the electromagnetic patch, and the first data line, the electromagnetic patch and the data acquisition chip are of an integrated structure.

3. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the number of the electromagnetic patches is M, and M is more than or equal to 3.

4. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the data acquisition chip is a medical diagnosis general ADS1299IPAGR type diagnosis acquisition chip.

5. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the plug-in mechanism is any one mode of a three-channel aviation socket, a six-channel aviation socket, an eight-channel aviation socket, a sixteen-channel aviation socket and a twenty-four-channel aviation socket.

6. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the data analysis processing equipment is electrically connected with the second data line through a single-channel aviation socket and is used for electroencephalogram signal data transmission.

7. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: and a data display module on the data analysis processing equipment adopts a color high-resolution LED screen.

8. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the bottom of the medical diagnosis cart is also provided with a pulley with a brake function.

9. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the network transmission module and the interactive data transmission module are transmitted by a 5G network protocol.

10. The ADHD detection rehabilitation device based on disposable electromagnetic sheet acquisition of electroencephalogram signals, which is characterized in that: the grading module comprises a light first-level module, a moderate second-level module and a heavy third-level module.

Technical Field

The invention relates to the field of children hyperkinetic syndrome detection and rehabilitation treatment, in particular to ADHD detection and rehabilitation equipment based on one-time electromagnetic sheet brain electrical signal acquisition.

Background

Attention Deficit Hyperactivity Disorder (ADHD) is a common problem of childhood behavioral abnormalities. The children with the same intelligence are normal or close to normal, but have defects in learning, behavior and emotion, and mainly show the phenomena of difficulty in concentration of attention, small attention span, short attention time, excessive activities on different occasions, easy emotion impulsion and the like which are not matched with the age and the development level.

At present, the diagnosis of the children's hyperkinetic syndrome in the hospital is mainly based on the medical history, clinical manifestations and physical examination provided by parents and teachers of children, and then electroencephalogram and brain evoked potential abnormality shooting are carried out on the brain of the children through electroencephalogram equipment fixed in the hospital, but all have no specific diagnosis significance, and the traditional diagnosis of the children's hyperkinetic syndrome has the defects that:

1. the children attention abnormal data and behaviors have large deviation, the children often show nervous or insecure emotion and even are intentionally subjected to immobility in the process of short-time inquiry and observation by doctors in the hospital environment state, so that the phenomenon that the children are prohibited to be abstained from doctors is the case, so that doctors cannot accurately obtain the normal performance and behavior references of the children under the conventional condition, and the judgment and data evaluation of professional doctors are seriously influenced;

2. currently, children are monitored during activities, and 4G network equipment such as a mobile phone is needed for transmitting electroencephalogram data. In the detection process, parents need to hold a mobile phone, which is inconvenient, the traditional electroencephalogram has no professional diagnosis basis for the attention deficit hyperactivity disorder, the parents and children do not know the electroencephalogram completely by virtue of professional ability and professional experience of a professional doctor, and the follow-up rehabilitation treatment of the children is restricted;

3. traditional hospital electroencephalogram equipment is fixed, and children sit or lie and monitor on equipment next door wearing equipment, because hospital's environment is different with normal environment and children's self subconscious's oppression influence causes its brain electrical data inaccurate, also has not representative yet, further says, and head-mounted device adopts flexible electrically conductive cloth, and children wear, can not disposable change, is not conform to the medical health standard much.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and solve the existing problems, and provides the ADHD detection rehabilitation equipment based on the disposable electromagnetic sheet for collecting the electroencephalogram signals.

The aim of the invention is achieved by the following measures:

an ADHD detection rehabilitation device for collecting brain wave signals based on a disposable electromagnetic sheet comprises a dynamic brain wave collecting and amplifying instrument for collecting brain wave signals and transmitting the signals, and a background intelligent processing terminal for receiving the brain wave signals, processing and analyzing the brain wave signals;

the dynamic brain wave acquisition amplifier comprises an electromagnetic patch electrode for acquiring brain electrical signals of children and data analysis processing equipment for receiving and preprocessing the brain electrical signals monitored and collected by the children in real time;

the electromagnetic patch electrode comprises an electromagnetic patch for bonding, adsorption and fixation and a data acquisition chip for collecting brain wave signals of children, and one end of the data acquisition chip is also electrically connected with a first data line;

the data analysis processing equipment is electrically connected with the first data line through a second data line for transmitting electroencephalogram data, one end of the second data line is electrically connected with the data processing equipment, and the other end of the second data line is fixedly connected with the first data line through a plug-in mechanism;

the data analysis processing equipment comprises a shell, wherein a data receiver for receiving brain wave signals, a preprocessing module for carrying out noise reduction and denoising on the brain wave signals, an analysis module for carrying out analysis processing on the acquired brain wave original data, a data display module for carrying out relevant parameter display on the brain wave signal data of the analysis module, a signal amplifier for carrying out stripping and amplification processing on the brain wave signals and a network transmission module for transmitting the brain wave signal data acquired in real time are also arranged in the shell, and the data analysis processing equipment can be placed by adopting a portable bag or a portable backpack, so that children can conveniently carry the data analysis processing equipment and is convenient to carry;

the data display module is installed on the front side of the shell in a clamping and embedding manner and comprises an equipment connection state module for displaying the acquisition state of the brain wave signals of the equipment, a battery electric quantity module for displaying the current electric quantity of the equipment, a brain wave oscillogram module for analyzing the brain wave signals and displaying the waveforms, a connection duration module for recording and displaying the connection service time of the current equipment and a signal intensity module for displaying the network data transmission signals of the equipment;

the background processing terminal comprises a hand-push type mobile device for placing the processing device and a data cloud processing terminal for electroencephalogram signal processing and algorithm analysis, wherein the hand-push type mobile device further comprises a medical diagnosis cart which is of an upper layer structure, a middle layer structure and a lower layer structure, a display used for a doctor to check brain wave real-time detection signals and user information of children and to make a customized rehabilitation scheme for the illness state of a patient is arranged on the upper layer of the medical diagnosis cart, a host processor used for being connected with the display is further arranged on the lower layer of the medical diagnosis cart, and a printer used for being connected with the host processor and printing signal data and user data is further arranged on the middle layer of the medical diagnosis cart;

the data cloud processing terminal comprises an interactive data transmission module, an algorithm analysis module, a grading module and a rehabilitation training module, wherein the interactive data transmission module is used for receiving electroencephalogram signal monitoring data and making a patient rehabilitation scheme by a doctor; wherein the rehabilitation training module comprises a rapid concentration training module, an auditory attention training module, a visual attention training module and an attention duration training module;

the core algorithm index of the algorithm analysis module is as follows:

attention index Z: calculating according to the mean value of the attention variance within the diagnosis time, and reflecting the mean value of the attention within a period of time;

attention retention index X: calculating according to the attention data acquired when the child wears the equipment, wherein the attention data is used for expressing the length of attention keeping time;

attention jump index r: acquiring the mean value of the variance from the peak to the trough of attention data in a period of time when the child wears the equipment;

age G: participating in diagnosing the actual age of the child in months;

m is the continuous duration of attention above a standard value;

l is the standard value of attention

NL is the difference between the attention value N and the standard value L;

hyperactivity syndrome evaluation K: quantifying the state index of the children with the syndrome according to a core algorithm, and visually reflecting the current hyperactivity degree of the children;

NL = （nt1 - l,nt2 - l,......ntn - l）

when NLt > 0 and NLt +1 > 0

Mt + 1

Obtaining (M1, M2, M3..... Mt) wherein t < tn

Z = (M1+M2+M3+…+Mn)/n

X =〈(M1-Z)^2+(M2-Z)^2+(M3-Z)^2+…+(Mn-Z)^2〉╱n

r=〈(N1-r)^2+(N2-r)^2+(N3-r)^2+…+(N2n-r)^2〉╱2n

K=

And quantizing and analyzing the comprehensive hyperactivity state index K of the child according to a core algorithm, so as to visually reflect the current hyperactivity degree of the child, perform hierarchical diagnosis, and perform hierarchical targeted guidance and rehabilitation training based on different hyperactivity state grades of the child.

Preferably, the data acquisition chip is arranged inside the electromagnetic patch, and the first data line, the electromagnetic patch and the data acquisition chip are of an integrated structure.

More preferably, the number of the electromagnetic patches is M, and M is more than or equal to 3.

Further preferably, the data acquisition chip is a medical diagnosis general ADS1299IPAGR type diagnosis acquisition chip.

Preferably, the plugging mechanism is any one of a three-channel aviation socket, a six-channel aviation socket, an eight-channel aviation socket, a sixteen-channel aviation socket and a twenty-four-channel aviation socket.

Preferably, the data analysis processing device is electrically connected with the second data line through a single-channel aviation socket for electroencephalogram data transmission.

Further preferably, the data display module on the data analysis processing device adopts a color high-resolution LED screen.

Preferably, a pulley with a braking function is further arranged at the bottom of the medical diagnosis cart.

Preferably, the network transmission module and the interactive data transmission module are 5G network protocol transmission.

Preferably, the grading module comprises a mild primary module, a moderate secondary module and a severe tertiary module.

The invention has the beneficial effects that:

1. the invention has simple structure and convenient operation, under the conventional state of children, the electromagnetic patch electrodes of the device are attached to the head, a plurality of electromagnetic patch electrodes carry out electroencephalogram data signal acquisition on the children and then are recorded on a data acquisition chip, the data acquisition chip is a medical diagnosis universal ADS1299IPAGR type diagnosis acquisition chip, then the diagnosis acquisition chip is connected with data analysis processing equipment through a first data wire and a second data wire for electroencephalogram signal transmission, the second data wire is electrically connected with the first data wire through a plug-in mechanism, the plug-in mechanism is any one of three-channel aviation plug-in, six-channel aviation plug-in, eight-channel aviation plug-in, sixteen-channel aviation plug-in and twenty-four-channel aviation plug-in, one channel corresponds to one electromagnetic patch electrode and the first data wire, the electromagnetic patch electrodes can be attached to the forehead, behind the ear, the top of the head and the like, the aviation eye-splice is connected more firmly, can not be loosened easily because of the activities of children, greatly improve the convenience of disassembling and assembling, disposable, clean and sanitary, and further improve the requirements of medical treatment and health;

2. the data analysis processing device receives and transmits electroencephalogram signal data through a second data wire, further, the data receiver receives children electroencephalogram signal data detected by an electromagnetic patch electrode in real time, the children electroencephalogram signal data are further transmitted to a preprocessing module, noise reduction and removal processing are carried out on the electroencephalogram signal, the noise-reduced electroencephalogram signal is transmitted to an analysis module, analysis processing is carried out on acquired electroencephalogram original data, then the processed electroencephalogram data are further subjected to stripping and amplification processing through a signal amplifier, the electroencephalogram signal data and various parameters are displayed in a data display module, the data display module adopts a colorful high-resolution LED screen, wherein the content of the data display module comprises a device connection state for displaying the electroencephalogram signal acquisition state of the device, battery electric quantity for displaying the current electric quantity of the device, an electroencephalogram waveform diagram for analyzing and processing the electroencephalogram signal, a computer program for displaying the waveform, The device is used for recording and displaying the connection duration of the current device connection service time and the signal intensity of network data transmission signals of the display device, and further visually and clearly displaying various data of the detection device, so that the use value of the device is greatly improved;

3. the hand-push type mobile equipment greatly improves the convenience of medical instruction and terminal use, the display for checking the real-time detection signals and user information of the brain waves of children, the host processor for connecting the display, the printer for connecting the host processor and printing the signal data and the user data are integrally placed, neatly and orderly through a three-layer distributed structure, the working efficiency of a medical sanitary environment and a doctor is greatly improved, the pulley with a brake function is also arranged at the bottom of the medical diagnosis cart, the movement is convenient, the stability is ensured, the practicability of the equipment is further improved, the doctor can also actively intervene the rehabilitation training of the patient, the diagnosis report of the patient is analyzed, and a set of personalized rehabilitation training scheme suitable for the patient is arranged through the performance, the monitoring data and the monitoring result of the patient, setting the rehabilitation training items and the training item difficulty of the patient at the background, and controlling the training process according to the training condition of the patient in the training process of the patient;

4. the network transmission module and the interactive data transmission module are 5G network protocol transmission, so that electroencephalogram processing data of a collection end are further transmitted to a data cloud processing terminal, then core algorithm processing is carried out on the processed electroencephalogram data, then rating is carried out on the hyperactivity of children based on algorithm analysis processing data, guidance and adjustment rehabilitation training are further carried out on the hyperactivity grade of the children based on a grading module, the algorithm is further graded, evaluation and state grading of the children state by the equipment are greatly improved, wherein the rehabilitation training module comprises four stages, namely a first stage, a rapid attention focusing training stage, alpha brain wave music is played by training contents, and the patients can rapidly focus attention by listening the brain wave music for treating the hyperactivity; the second stage, the auditory attention training stage, wherein the training contents comprise 'dialectic colors', 'dialectic Chinese zodiac' and 'dialectic fruits', and the auditory attention of the patient is improved through targeted training; the third stage, visual attention training stage, training the contents of Shuertte checks, jigsaw, Lianlian Fang, etc., improving the visual attention of the patient through visual training; the fourth stage, the training stage of holding attention for a long time, the training is provided with bear cake, Alibaba and forty-great theft, police grabs pleasure and Shenjianhuang, and the attention persistence of the patient is improved through the training; the high efficiency and the rehabilitation training effect of this equipment have been improved greatly, and the individual target setting of pertinence differentiation has improved the accuracy of this equipment monitoring and rehabilitation guidance greatly, has further improved training and treatment effect of this equipment to children hyperkinetic syndrome.

Drawings

FIG. 1 is a schematic flow diagram of the overall architecture of the present invention;

FIG. 2 is a structural diagram of the dynamic brain wave collecting amplifier of the present invention;

fig. 3 is an enlarged view of the structure of the hand-push type mobile device of the present invention.

Reference numbers in the figures: 1-dynamic brain wave acquisition amplifier, 11-electromagnetic patch electrode, 111-electromagnetic patch, 112-data acquisition chip, 12-data analysis processing equipment, 121-shell, 122-data receiver, 123-preprocessing module, 124-analysis module, 125-data display module, 1251-equipment connection state module, 1252-battery power module, 1253-electroencephalogram module, 1254-connection duration module, 1255-signal strength module, 126-signal amplifier, 127-network transmission module, 13-first data line, 14-second data line, 2-background intelligent processing terminal, 21-hand-push mobile equipment, 211-medical diagnosis cart, 212-display, 213-host processor, 214-printer, 22-data cloud processing terminal, 221-interactive data transmission module, 222-algorithm analysis module, 223-grading module, 2231-mild first-level module, 2232-moderate second-level module, 2233-severe third-level module, 224-rehabilitation training module, 2241-rapid attention focusing training module, 2242-auditory attention training module, 2243-visual attention training module, 2244-attention duration training module, 3-plug-in mechanism and 4-pulley.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

with reference to fig. 1-3, an ADHD detection rehabilitation device based on a disposable electromagnetic sheet collecting electroencephalogram signals comprises a dynamic electroencephalogram collecting amplifier 1 for collecting electroencephalogram signals and transmitting signals, and a background intelligent processing terminal 2 for receiving, processing and analyzing the electroencephalogram signals;

the dynamic brain wave acquisition amplifier 1 comprises an electromagnetic patch electrode 11 for acquiring brain electrical signals of children and a data analysis processing device 12 for receiving and preprocessing the brain electrical signals monitored and collected by the children in real time;

the electromagnetic patch electrode 11 comprises an electromagnetic patch 111 for bonding and adsorption fixation and a data acquisition chip 112 for collecting brain wave signals of children, and one end of the data acquisition chip 112 is also electrically connected with a first data line 13;

the data acquisition chip 112 is arranged inside the electromagnetic patch 111, the first data line 13, the electromagnetic patch 111 and the data acquisition chip 112 are of an integrated structure, the number of the electromagnetic patches 111 is M, M is not less than 3, and the data acquisition chip 112 is a medical diagnosis general ADS1299IPAGR type diagnosis acquisition chip.

The data analysis processing device 12 is electrically connected with the first data line 13 through a second data line 14 for transmitting electroencephalogram data, one end of the second data line 14 is electrically connected with the data processing device 12, and the other end of the second data line is fixedly connected with the first data line 13 through an insertion mechanism 3; the plugging mechanism 3 is any one of a three-channel aviation socket, a six-channel aviation socket, an eight-channel aviation socket, a sixteen-channel aviation socket and a twenty-four-channel aviation socket;

in the conventional state of children, the electromagnetic patch electrodes of the device are attached to the head, a plurality of electromagnetic patch electrodes are used for acquiring electroencephalogram data signals of the children and further recording the electroencephalogram data signals on a data acquisition chip, the data acquisition chip is a medical diagnosis universal ADS1299IPAGR type diagnosis acquisition chip, then the diagnosis acquisition chip is connected with data analysis processing equipment through a first data wire and a second data wire for transmitting electroencephalogram signals, the second data wire is electrically connected with the first data wire through a plug-in mechanism, the plug-in mechanism is any one of three-channel aviation plug sockets, six-channel aviation plug sockets, eight-channel aviation plug sockets, sixteen-channel aviation plug sockets and twenty-four-channel aviation plug sockets, one channel corresponds to one electromagnetic patch electrode and the first data wire, the electromagnetic patch electrodes can be attached to the forehead, behind the ear, the top of the head and the like, the aviation plug sockets are connected more firmly and cannot be loosened easily due to the activities of the children, greatly improves the convenience of disassembly and assembly, is disposable, is clean and sanitary, and further improves the requirements of medical treatment and sanitation.

The data analysis processing device 12 includes a casing 121, a data receiver 122 for receiving brain wave signals, a preprocessing module 123 for performing noise reduction and denoising processing on the brain wave signals, an analysis module 124 for analyzing the acquired raw brain wave data, a data display module 125 for displaying relevant parameters of the brain wave signal data of the analysis module, a signal amplifier 126 for stripping and amplifying the brain wave signals, and a network transmission module 127 for transmitting the brain wave signal data acquired in real time are further disposed in the casing 121, the data analysis processing device 12 can be placed by a portable satchel or a portable backpack, so that children can carry the data analysis processing device conveniently and play the data analysis processing device conveniently, the data analysis processing equipment 12 is electrically connected with the second data line 14 by adopting a single-channel aviation socket for electroencephalogram data transmission;

the data display module 125 is installed in the front of the casing 121 in a snap-fit manner, the data display module 125 includes an equipment connection state module 1251 for displaying the brain wave signal acquisition state of the equipment, a battery power module 1252 for displaying the current power of the equipment, a brain wave mapping module 1253 for analyzing and processing the brain wave signals to display waveforms, a connection duration module 1254 for recording and displaying the connection service time of the current equipment, and a signal intensity module 1255 for displaying the network data transmission signals of the equipment, and the data display module 125 on the data analysis processing equipment 12 is a color high-resolution LED screen.

The data analysis processing device 12 receives and transmits electroencephalogram signal data through a second data line, further, the data receiver receives child electroencephalogram signal data detected by the electromagnetic patch electrode in real time, the child electroencephalogram signal data are transmitted to the preprocessing module, noise reduction and removal processing are carried out on the electroencephalogram signal, the electroencephalogram signal subjected to noise reduction and removal processing is transmitted to the analysis module, the acquired electroencephalogram original data are analyzed, the processed electroencephalogram data are further stripped and amplified through a signal amplifier, the electroencephalogram signal data and various parameters are displayed on the data display module, the data display module adopts a color high-resolution LED screen, wherein the content of the data display module comprises a device connection state for displaying the electroencephalogram signal acquisition state of the device, a battery electric quantity for displaying the current electric quantity of the device, an electroencephalogram for analyzing and processing the electroencephalogram signal to display the waveform, The device is used for recording and displaying the connection duration of the connection service time of the current device and the signal intensity of network data transmission signals of the display device, and further visually and clearly displaying various data of the detection device, so that the use value of the device is greatly improved.

The background processing terminal 2 comprises a hand-push type mobile device 21 for placing a processing device and a data cloud processing terminal 22 for electroencephalogram signal processing and algorithm analysis, wherein the hand-push type mobile device 21 further comprises a medical diagnosis cart 211, the medical diagnosis cart 211 is of an upper, middle and lower three-layer structure, the upper layer of the medical diagnosis cart 211 is provided with a display 212 for a doctor to check the real-time brain wave detection signals and user information of the children and to make a customized rehabilitation scheme for the illness state of the patients, a host processor 213 for connecting a display is also provided at the lower layer of the medical diagnosis cart 211, a printer 214 for connecting a host processor and printing signal data and user data is further arranged in the middle layer of the medical diagnosis cart 211, and a pulley 4 with a brake function is further arranged at the bottom of the medical diagnosis cart 211;

a hand-push type mobile device greatly improves the convenience of medical instruction and terminal use, a display for checking signals and user information of brain waves of children in real time, a host processor for connecting the display, a printer for connecting the host processor and printing signal data and user data are integrally placed, neatly and orderly, the working efficiency of medical health environment and doctors is greatly improved, a pulley with a brake function is also arranged at the bottom of a medical diagnosis cart, the movement is convenient, the stability is ensured, the practicability of the device is further improved, doctors can also actively intervene the rehabilitation training of patients, the diagnosis report of the patients is analyzed, a set of personalized rehabilitation training scheme suitable for the patients is arranged through the performance, the monitoring data and the monitoring results of the patients, and the items and the training item difficulty of the rehabilitation training of the patients are arranged at the background, and the training process can be controlled according to the training condition of the patient during the training process of the patient.

The data cloud processing terminal 22 comprises an interactive data transmission module 221 for receiving electroencephalogram signal monitoring data and making patient rehabilitation scheme data by a doctor, an algorithm analysis module 222 for performing core algorithm processing on the electroencephalogram signal data, a grading module 223 for grading the hyperactivity of the child based on the algorithm analysis processing data, and a rehabilitation training module 224 for guiding and adjusting the grade of the hyperactivity of the child and the rehabilitation scheme made by the doctor based on the grading module; the grading module 223 includes a mild level one module 2231, a moderate level two module 2232 and a severe level three module 2233, wherein the rehabilitation training module 224 includes a fast attention training module 2241, an auditory attention training module 2242, a visual attention training module 2243 and an attention duration training module 2244, and the network transmission module 127 and the interactive data transmission module 221 are 5G network protocol transmission.

Wherein the core algorithm index of the algorithm parsing module 222 is:

attention index Z: calculating according to the mean value of the attention variance within the diagnosis time, and reflecting the mean value of the attention within a period of time;

attention retention index X: calculating according to the attention data acquired when the child wears the equipment, wherein the attention data is used for expressing the length of attention keeping time;

attention jump index r: acquiring the mean value of the variance from the peak to the trough of attention data in a period of time when the child wears the equipment;

age G: participating in diagnosing the actual age of the child in months;

m is the continuous duration of attention above a standard value;

l is the standard value of attention

NL is the difference between the attention value N and the standard value L;

hyperactivity syndrome evaluation K: quantifying the state index of the children with the syndrome according to a core algorithm, and visually reflecting the current hyperactivity degree of the children;

NL = （nt1 - l,nt2 - l,......ntn - l）

when NLt > 0 and NLt +1 > 0

Mt + 1

Obtaining (M1, M2, M3..... Mt) wherein t < tn

Z = (M1+M2+M3+…+Mn)/n

X =〈(M1-Z)^2+(M2-Z)^2+(M3-Z)^2+…+(Mn-Z)^2〉╱n

r= 〈(N1-r)^2+(N2-r)^2+(N3-r)^2+…+(N2n-r)^2〉╱2n

K=

And quantizing and analyzing the comprehensive hyperactivity state index K of the child according to a core algorithm, so as to visually reflect the current hyperactivity degree of the child, perform hierarchical diagnosis, and perform hierarchical targeted guidance and rehabilitation training based on different hyperactivity state grades of the child.

The data cloud processing terminal 22 calls electroencephalogram data through network transmission, processes the data through a host processor, and displays the electroencephalogram data and various parameters on a display, the network transmission module and the interactive data transmission module are transmitted through a 5G network protocol, the transmission of the electroencephalogram processing data of a collection end to the data cloud processing terminal is further realized, then the core algorithm processing is carried out on the processed electroencephalogram data, then the children's hyperkinetic syndrome is graded based on the algorithm analysis processing data, the training and the adjustment of the rehabilitation training are further carried out on the grade of the hyperkinetic syndrome to which the children belong based on the grading module, the algorithm is further graded, the evaluation and the state grading of the equipment on the children's state are greatly improved, wherein the rehabilitation training module comprises four stages, namely a first stage, a rapid concentration training stage, and alpha brain wave music played by training contents, the patient can quickly concentrate on the attention by listening to brain wave music aiming at treating the hyperactivity; the second stage, the auditory attention training stage, wherein the training contents comprise 'dialectic colors', 'dialectic Chinese zodiac' and 'dialectic fruits', and the auditory attention of the patient is improved through targeted training;

the third stage, visual attention training stage, training the contents of Shuertte checks, jigsaw, Lianlian Fang, etc., improving the visual attention of the patient through visual training; the fourth stage, the training stage of holding attention for a long time, the training is provided with bear cake, Alibaba and forty-great theft, police grabs pleasure and Shenjianhuang, and the attention persistence of the patient is improved through the training; the device has the advantages that the high efficiency and the rehabilitation training effect of the device are greatly improved, the data cloud processing terminal formulates a targeted differential rehabilitation training scheme according to the attention classes of the children, when the attention classes of the children are mild first-grade, the training attention durability of the fourth stage is mainly used, when the attention classes of the children are moderate second-grade, the training auditory attention of the second stage and the visual attention of the third stage are mainly used, when the attention classes of the children are severe third-grade, the training attention of the first stage and the training attention durability of the shorter fourth stage are mainly used, the individual target setting of the differential pertinence is realized, the monitoring and rehabilitation guidance accuracy of the device is greatly improved, and the training and treatment effects of the device on the attention classes of the children are further improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.