CN117058932A

CN117058932A - Multifunctional cardiopulmonary resuscitation intelligent training and examination system

Info

Publication number: CN117058932A
Application number: CN202310856228.XA
Authority: CN
Inventors: 徐卿; 陈志�; 黄翊
Original assignee: Beijing Anjiao Technology Co ltd
Current assignee: Beijing Anjiao Technology Co ltd
Priority date: 2023-07-13
Filing date: 2023-07-13
Publication date: 2023-11-14

Abstract

The invention relates to a multifunctional cardiopulmonary resuscitation intelligent training and examination system, which belongs to the technical field of public medical first aid such as cardiopulmonary resuscitation education, training, examination, evidence issuing, management and the like, and comprises a control host and a training and examination machine, wherein the control host and the training and examination machine are connected through a wire or a wireless; the control host comprises a host panel, a host shell, a system control computer, a maintenance cabin, an AED equipment cabin, a camera and a display screen. The multifunctional intelligent training and examination system for cardiopulmonary resuscitation adopts a guided intelligent interaction mode to carry out teaching, training and examination of cardiopulmonary resuscitation, and has the advantages of high efficiency, low cost, small difficulty, unified examination standard and convenient management after examination by a social emergency responder; effectively solves the technical problems existing in the prior cardiopulmonary resuscitation training and examination, and is beneficial to popularization and application.

Description

Multifunctional cardiopulmonary resuscitation intelligent training and examination system

Technical Field

The invention relates to a multifunctional intelligent training and examining system for cardiopulmonary resuscitation, and belongs to the technical field of public medical first aid such as cardiopulmonary resuscitation education, training, examination, evidence issuing, management and the like.

Background

Sudden death, as defined by the world health organization, refers to sudden death in an unexpectedly short period of time in a population that is healthy or seemingly healthy at ordinary times.

The time is life. In order to effectively overcome the problem of slow response of professional medical emergency, the medical emergency concept of internationally, especially developed countries is changed from the prior medical emergency to the medical emergency and the sudden on-site social emergency, so as to effectively improve the survival rate of sudden death patients. In other words, the first-time social first aid of the first witness on the first site can gain valuable golden time for the majority of patients.

However, medical first aid is after all a serious medical problem, not any first witness can first rescue on the first spot at the first time, which must be qualified with the corresponding first aid knowledge, skills and qualification. Because, if the social emergency personnel do not operate properly in emergency, secondary trauma may be caused to the patient, leaving sequelae, and the patient's life may be compromised. In this case, the first witness rescuer may be prohibitive in terms of social, economic, and even legal responsibility. Clearly, this is disadvantageous for the patient and even the whole society.

To encourage the first witness to develop effective first aid work at the first time at the first site, on one hand, developed countries protect the rights and interests of public first aid by the public first aid staff through legislation, commonly called "good law"; on the other hand, the training of the social emergency personnel and the qualification certification work are widely carried out. These emergency personnel include not only medical personnel, but also police, firefighters, jersey, high-speed rail, ship crews, stadiums, gymnasiums and outdoor exercises manager, airport, mall, exhibition hall, museum staff, mine, enterprise, institutional staff, school teacher, taxi driver, postman, take-out parker, etc.

In contrast, the qualification rate of the emergency training in China is very low. The situation is unfavorable for the life and health needs of people, is not suitable for the state of drastic aging in China, and is not matched with the economic and social development of the national people and the state of the large country. Therefore, the method improves the social first-aid capability of China as soon as possible, and is very important and urgent.

The problem of too low examination rate of emergency training of the public of China has attracted attention from the government. The code of civil law, implemented 1 at 2021, 1, has written "good manway" to protect public emergency activities, providing disclaimer protection for public emergency activities. Meanwhile, governments and related institutions have begun to pay attention to the public emergency knowledge training, which has mainly the following problems:

1) The classroom teaching, training and examination of the class requires a large number of classrooms, training places and trainers, has low training efficiency and high cost, and is not beneficial to the rapid popularization of society.

2) Due to the limitation of centralized training places and time, students must take study, training and examination by taking off-line, which is not beneficial to staff to take part in and cannot be promoted in a large area.

3) The national training and examination lack standardized supervision measures, are each fight, are easily influenced by human factors, and are lack of responsibility of some training institutions, so that in order to pursue economic benefits, the operation cost is saved, the training time is shortened, the examination standard is reduced, the certificate gold content is reduced, and hidden danger is brought to public emergency.

4) The face-to-face teaching, hand grip training and one-to-one examination modes of the trainers are adopted, high requirements are put on the quantity and quality of the trainers, and personal levels of the trainers such as knowledge, skills, emotion, physical strength, preference and other artificial factors directly influence the study enthusiasm and training effect of each trainee.

5) At present, the effective period of the cardiopulmonary resuscitation emergency personnel is set to be 2 years, and after 2 years, the cardiopulmonary resuscitation emergency personnel must be subjected to retraining examination certificates to be effective. However, some people lose emergency membership due to forgetting or lack of time to recheck, and the like, and cannot perform legal rescue once an emergency condition is met.

6) At present, the evidence-holding emergency officers in China cannot be docked with specialized emergency or social emergency institutions, so that when emergency situations are met, the nearby emergency officers cannot obtain information at the first time to reach the first site for timely rescue.

In order to solve the above-mentioned problems in the social level cardiopulmonary resuscitation training work, some scientific workers have conducted various studies, wherein the technology similar to that of the present utility model is as follows:

the Chinese patent application of patent number 202021430474.7 discloses a cardiopulmonary resuscitation trains first aid all-in-one, includes: fuselage shell, overall control and operating system, training system and first aid system. The whole control and operation system, the training system and the first-aid system are all arranged in the machine body shell; the whole control and operation system comprises a main control board of a whole host, a host computer, an identity authentication module, a touch screen, a voice interaction module, a first communication module and a first power management module, wherein the identity authentication module, the touch screen, the first voice interaction module, the first communication module and the power module are all connected to the main control board of the whole host and the host computer, the training system comprises a digital simulation person and cardiopulmonary resuscitation training software, the first aid system comprises an AED defibrillator, and the identity authentication module is used for verifying identity information of trained personnel. This technique is called cardiopulmonary resuscitation training first aid all-in-one machine, and in practice only has training functions, because the so-called first aid function is simply to add a reserve tank for storing an AED (automatic defibrillator) on the training machine, and there are no two types of AEDs installed in public places. Even if the emergency function is not considered, the training function has the technical defects that the dummy has only the pressing and blowing functions, the state, the action posture and the like of the trainee cannot be monitored, the configuration of the AED training device is wrong, the disinfection and protection equipment is lacked, and the AED training device cannot be applied in reality and the like.

The Chinese patent application No. 201811496046.1 discloses a cardiopulmonary resuscitation teaching training device, a data processing method and a storage medium technology. It obtains pressure signal according to pressing the pressure of pressure on human model and judges whether to press effectively, through the training result of display screen real-time display student press position, press frequency data and pressing depth data, makes the clear know of student at a glance whether press the operation correctly, and help the student in time adjust the mode of pressing, improves cardiopulmonary resuscitation's teaching effect. The technology is essentially a common simple technology, and a pressure sensor is arranged on a cardiopulmonary resuscitation training simulator to obtain a pressure signal, and the training effect is judged through the pressure signal.

The Chinese patent application No. 201811598098.X discloses a cardiopulmonary resuscitation training and assessment integrated device, which comprises a trunk structure, a head structure connected with the trunk structure, and skin covering the trunk structure; a lung bag component is arranged between the sternum position on the front surface of the trunk structure and the skin, and the lung bag component is connected with the mouth of the head structure; the trunk structure is also internally provided with a main control circuit board and a measurement assembly for measuring the pressing depth, the pressing rebound value and the pressing frequency during simulated cardiopulmonary resuscitation, wherein the measurement assembly is connected with the main control circuit board and feeds back each measurement data to the main control circuit board; the head structure is also provided with a lamplight feedback assembly which is connected with the main control circuit board; in a cardiopulmonary resuscitation training mode, the main control circuit board controls the light feedback component to be opened, and feeds back the light feedback component in real time according to the acquired data; in the cardiopulmonary resuscitation check mode, the main control circuit board controls the light feedback component to be closed. The technology essentially only changes the pressure sensor into a displacement sensor and a vibration sensor, and the pressing effect feedback is changed from display screen display to lamplight display; the cardiopulmonary resuscitation assessment technique and the training technique are essentially one technique, but the light feedback component is closed.

The Chinese patent application with the patent application number of 201920762701.7 discloses cardiopulmonary resuscitation assessment training equipment, which has the following problems: 1) The examinee still needs to check one by one; 2) Only pressing and blowing are detected, and other assessment information such as judging states, action postures and the like cannot be presented; 3) The equipment is heavier, is unfavorable for the transport, and the transportation cost is high.

The Chinese patent application 201921274211.9 discloses a cardiopulmonary resuscitation examination device which is essentially a locker, and the claimed right is also essentially a storage mode, so that no substantial content exists, and the preparation work and the operation workload of an examiner are increased.

The general problems with the above techniques are: the efficiency is low, the cost is high, the difficulty is high, the examination standard is not uniform, and the social emergency personnel lack management after examination; the technical problems existing in the prior cardiopulmonary resuscitation training and examination cannot be effectively solved, and the popularization and application are difficult, so that the problems of difficult evidence obtaining and low popularization rate of the socialized emergency personnel in China still cannot be fundamentally solved.

Therefore, the multifunctional intelligent training and examination system for cardiopulmonary resuscitation is provided, and teaching, training and examination of cardiopulmonary resuscitation are performed by adopting a guided intelligent interaction mode, so that the efficiency is high, the cost is low, the difficulty is low, the examination standard is uniform, and the management is convenient and fast after the examination of a social emergency responder; the technical problems existing in the prior cardiopulmonary resuscitation training and examination are effectively solved, popularization and application are facilitated, and the technical problem to be solved in the technical field is urgent.

Disclosure of Invention

The invention aims to provide a multifunctional intelligent training and examining system for cardiopulmonary resuscitation, which adopts a guided intelligent interaction mode to carry out teaching, training and examination of cardiopulmonary resuscitation, and has the advantages of high efficiency, low cost, small difficulty, unified examination standard and convenient management after examination by a social first-aid staff; effectively solves the technical problems existing in the prior cardiopulmonary resuscitation training and examination, and is beneficial to popularization and application.

The above object of the present invention is achieved by the following technical solutions:

the multifunctional cardiopulmonary resuscitation intelligent training and examination system comprises a control host and a training and examination machine, wherein the control host and the training and examination machine are connected through a wire or a wireless; the control host comprises a host panel, a host shell, a system control computer, a camera and a display screen, wherein the camera is connected with the system control computer, and the display screen is connected with the system control computer.

Preferably, the system control computer is located inside the host casing, and the camera is mounted on the host panel.

Preferably, the training and examining machine comprises a training and examining machine shell, an action recognition camera, a sliding rail, an equipment telescopic tray, an AED training machine, an equipment tray, a training simulator, an equipment cabin door and a tablet personal computer; the training simulator, the AED training machine and the tablet personal computer are positioned on the equipment tray and are respectively connected with the system control computer; the equipment tray is connected with the telescopic tray through a sliding rail.

Preferably, the equipment tray is connected with the equipment cabin door through a hinge.

Preferably, the training and examining machine further comprises a protection soft cushion and an electromagnetic lock; the protection cushion and the electromagnetic lock are arranged on the equipment cabin door; the electromagnetic lock is connected with the system control computer.

Preferably, the training simulator is fixed on the equipment tray.

Preferably, the AED training machine is secured to the device tray.

Preferably, the tablet computer is fixed on the equipment tray and placed on the shoulder of the training simulator.

Preferably, the training machine further comprises a sterilizer, and the sterilizer is fixed on the inner wall of the telescopic tray cabin of the placing device.

Preferably, the multifunctional cardiopulmonary resuscitation intelligent training system further comprises an emergency material cabin, an emergency material storage box and a protective material storage box which are all located in the main machine shell.

Preferably, the multifunctional cardiopulmonary resuscitation intelligent training and testing system further comprises a maintenance cabin and an AED equipment cabin; the maintenance compartment and the AED equipment compartment are located within the main chassis.

Preferably, the AED device compartment houses AED devices.

Preferably, the first aid cargo compartment houses a cardiopulmonary resuscitation bag and a collapsible neck brace apparatus.

Preferably, the protective material reserve tank houses disposable medical gloves and disposable respiratory films.

Preferably, the system control computer is provided with a comprehensive management platform software system, and comprises four software modules, namely a student side software module, a teaching auxiliary side software module, a management side software module and a resource manager software module; the management end software module is respectively connected with the student end software module, the teaching auxiliary end software module and the resource manager software module.

Preferably, 9 submodules are arranged below the software module at the student end, and are respectively: the system comprises a course center sub-module, a live activity sub-module, a training shift sub-module, an examination paper sub-module, a theme zone sub-module, an interactive attention sub-module, an integral mall sub-module and a learning file sub-module; the course center sub-module, the live broadcast activity sub-module and the integral mall sub-module of the student end software module are connected with the teaching management sub-module in the teaching assistance end software module; the training team module is connected with the theme zone sub-module, the interactive attention sub-module, the student management sub-module and the practical training management sub-module; the examination sub-module is connected with the online examination sub-module, the online coil reading sub-module and the examination paper library sub-module; the questioning coil sub-module is connected with the questioning and answering management sub-module; the learning file sub-module is connected with the student management sub-module;

The teaching auxiliary end software module is provided with 6 submodules which are respectively: the system comprises a teaching management sub-module, a practical training management sub-module, a student management sub-module, a question and answer management sub-module, an online proctoring sub-module and an online coil reading sub-module; the teaching management submodule in the teaching auxiliary end software module is connected with the course center submodule, the live broadcast activity submodule, the integral mall submodule and the resource management submodule; the training management sub-module is connected with the training shift sub-module, and the student management sub-module is connected with the training shift sub-module, the learning file sub-module and the certificate library sub-module; the online invigilation submodule is connected with the examination submodule; the online coil reading sub-module is connected with the examination sub-module; the questionnaire management sub-module is connected with the questionnaire library sub-module;

the management end software module is provided with 15 sub-modules which are respectively: the system comprises a portal management sub-module, an organization management sub-module, a user management sub-module, a permission management sub-module, a strategy management sub-module, a course management sub-module, a resource management sub-module, a training management sub-module, an examination management sub-module, a live broadcast management sub-module, a special area management sub-module, an integration management sub-module, a course co-creation sub-module, a data statistics sub-module and a message management sub-module;

The portal management sub-module is used as an entry and is an independent module, and the organization management sub-module is connected with the databases of the user management sub-module and the authority management sub-module and has authority to call; the policy management sub-module is connected with the data of the course management sub-module for calling; the resource management sub-module is connected with the database of the examination management sub-module, the course co-creation sub-module and the live broadcast management sub-module and calls real-time data; the retraining management sub-module is connected with the database of the live broadcast management sub-module and the examination management sub-module; the live broadcast management sub-module and the special area management sub-module are independent modules; the score management sub-module is connected with the course management sub-module and the examination management sub-module database; the message management sub-module is connected with the organization management sub-module and the user management sub-module; the data statistics submodule is in data connection with all other submodules;

the resource manager module is divided into 10 sub-modules, which are respectively: a courseware library sub-module, a master library sub-module, a video library sub-module, a document library sub-module, a style library sub-module, a test question library sub-module, a test paper library sub-module, a questionnaire library sub-module, a certificate library sub-module and a picture library sub-module;

the courseware library sub-module is connected with the video library sub-module, the document library sub-module, the picture library sub-module and the style library sub-module in a data manner; the test question library sub-module is connected with the test paper library sub-module in data and invokes the document library sub-module and the picture library sub-module in data; the certificate library sub-module is an independent module, and the questionnaire library sub-module calls courseware library sub-module data.

Preferably, the training simulates a human chest area and a magnetic induction area of an AED electrode slice arranged in a rib, when the AED training machine is used for defibrillation, electric shock feedback exists, the model chest has fluctuation, and the muscle strengthening effect generated by electric shock reflects reality.

Preferably, the AED training machine is configured with reusable magnetic electrode pads that are attached to the chest area of the training dummy and the magnetic sensing area of the built-in AED electrode pads of the rib.

Preferably, the tablet personal computer is connected with a training dummy and a system control computer.

Preferably, the sterilizer is a medical high-efficiency deep ultraviolet sterilizing lamp, and the tail end of the sterilizer is provided with a touch type power switch.

Preferably, the motion recognition camera is connected to an HDMI interface of the system control computer by a video data line.

Preferably, the action recognition software module in the system control computer is a deep learning model established according to the standard operation flow of cardiopulmonary resuscitation.

Preferably, a face recognition software module is arranged in the system control computer.

Preferably, the system control computer is provided with a comprehensive management platform software system.

Preferably, the number of the control hosts is 1, and the number of the training machines is more than or equal to 35.

The beneficial effects are that:

The multifunctional intelligent training and examination system for cardiopulmonary resuscitation adopts a guided intelligent interaction mode to carry out teaching, training and examination of cardiopulmonary resuscitation, and has the advantages of high efficiency, low cost, small difficulty, unified examination standard and convenient management after examination by a social emergency responder; effectively solves the technical problems existing in the prior cardiopulmonary resuscitation training and examination, and is beneficial to popularization and application.

The invention is further described below with reference to the drawings and the detailed description, but the embodiments of the invention are not limited thereto. It should be understood that the examples described in this specification are for the purpose of illustrating the invention only and are not intended to limit the invention.

Drawings

FIG. 1 is a schematic diagram of a control host in a multifunctional cardiopulmonary resuscitation intelligent training system according to embodiment 1 of the present invention.

Fig. 2 is a schematic structural diagram of an examination training machine in the multifunctional cardiopulmonary resuscitation intelligent examination training system in embodiment 1 of the present invention.

Fig. 3-1 is a schematic diagram of a standby state of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training machine in the multifunctional cardiopulmonary resuscitation intelligent training system according to embodiment 1 of the present invention.

Fig. 3-2 is a schematic diagram of a standby state of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training machine (split) in the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 2 of the present invention.

Fig. 4-1 is a schematic diagram of the working state of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training machine in the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 1 of the present invention.

Fig. 4-2 is a schematic diagram of the (split) working state of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training machine in the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 2 of the present invention.

Fig. 5 is a schematic diagram of a standby state of 1 control host+2 multifunctional cardiopulmonary resuscitation intelligent training machines in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 3 of the present invention.

Fig. 6 is a schematic diagram of the working states of 1 control host+2 multifunctional cardiopulmonary resuscitation intelligent training and examining machines in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 3 of the present invention.

Fig. 7 is a schematic diagram of a standby state of the multifunctional cardiopulmonary resuscitation intelligent training and examining machine with 7 control hosts in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 4 of the present invention.

FIG. 8 is a schematic diagram of the multifunctional CPR intelligent training and examining machine in the embodiment 4 of the invention in a standby state with 7 control hosts in the 1 control hosts.

Fig. 9 is a schematic diagram of an emergency training intelligent learning and action recognition method of the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 1 of the present invention.

FIG. 10 is a functional diagram of a comprehensive management platform in the multifunctional cardiopulmonary resuscitation intelligent training system according to embodiment 1 of the present invention.

1. Host panel 2 host shell

3. Maintenance cabin for system control computer 4

5 AED equipment compartment 6 camera

7. First-aid material cabin with display screen 8

9. First-aid material reserve tank 10 protective material reserve tank

11. Motion recognition camera of training and examining machine shell 12

13. Telescopic tray of slide rail 14 equipment

15 16 equipment tray of AED training machine

17. Training a humanoid 18-equipment cabin door

19. Electromagnetic lock with protective cushion 20

21. Sterilizer 22 panel computer

Detailed Description

Unless otherwise specified, the components and the like in the following examples are all conventional components in the art, and are commercially available in a manner conventional in the art.

Abbreviations, english and key term definitions:

1. CPR: cardiopulmonary resuscitation (full write cardiopulmonary resuscitation, including artificial respiration and external cardiac massage). 2. AED: an automatic external defibrillator, a portable medical device, diagnoses a specific arrhythmia and delivers shock defibrillation. 3. MOOC: the English abbreviation of the mousse is a large-scale open online course. 4. AI: artificial intelligence. 5. xAPI: the new generation of learning technical specifications can collect online and offline learning behavior data. 6. GPU: and the deep learning server. 7. XYZ: and (5) a rectangular space coordinate system. 8. SAAS: the software service is provided over a network. 9. LLC: logical link control (Logical Link Control) is a unified logical link interface protocol between programs.

Example 1

FIG. 1 is a schematic diagram of a control host in a multifunctional cardiopulmonary resuscitation intelligent training system according to embodiment 1 of the present invention; wherein 1 is a host panel; 2 is a host shell; 3 is a system control computer; 4 is a maintenance cabin; 5 is an AED equipment compartment; 6 is a camera; 7 is a display screen; 8 is an emergency material cabin; 9 is an emergency material reserve box; 10 is a protective material reserve tank; FIG. 2 is a schematic diagram of the training and examining machine in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in the embodiment 1 of the present invention; wherein 11 is a training machine shell; 12 is a motion recognition camera; 13 is a slide rail; 14 is a device expansion tray; 15 is an AED training machine; 16 is an equipment tray; 17 is a training dummy; 18 is an equipment door; 19 is a protective cushion; 20 is an electromagnetic lock; 21 is a sterilizer; 22 is a tablet computer;

the multifunctional cardiopulmonary resuscitation intelligent training and examining system of the embodiment 1 of the invention comprises a control host and a training and examining machine (multifunctional cardiopulmonary resuscitation intelligent training and examining machine); the control host and the multifunctional cardiopulmonary resuscitation intelligent training and examining machine are connected through wires or wirelessly; the control host comprises a host panel 1, a host shell 2, a system control computer 3, a maintenance cabin 4, an AED equipment cabin 5, a camera 6, a display screen 7, a first-aid material cabin 8, a first-aid material storage box 9 and a protective material storage box 10; the main machine panel 1 is positioned at the front upper part of the main machine shell 2, the system control computer 3 is positioned at the middle upper part of the main machine shell 2, the maintenance cabin 4 is positioned at one side of the main machine shell 2, the AED equipment cabin 5 is positioned at the middle lower part of one side of the main machine shell 2, the camera 6 is arranged in the middle of the main machine panel 1, the display screen 7 is positioned at the front of the main machine shell 2, the first-aid material cabin 8 is positioned at the middle lower part of the other side of the main machine shell 2, the first-aid material storage box 9 is positioned at the lower part of one side of the main machine shell 2, and the protective material storage box 10 is positioned at the lower part of the other side of the main machine shell 2; the system control computer 3 is respectively connected with the camera 6 and the display screen 7;

The control host is core control equipment of the multifunctional cardiopulmonary resuscitation intelligent training and examining system, has the functions of data acquisition, data storage, data processing, data transmission, teaching demonstration, first-aid equipment, material storage and the like, and can simultaneously support the access of a plurality of intelligent training and examining machines by adopting wired or wireless connection with the training and examining machines; when a plurality of students take training examination, the system can automatically distribute the students to an idle training examination machine for the training examination only by registering and reserving on the control host equipment; the training examination result of the student on the training examination machine is transmitted back to the system control computer 3 of the control host through a wired or wireless connection network for data processing, storage and uploading;

the camera 6 installed on the control host is connected to an HDMI data interface of the system control computer 3 by adopting a video data line, the camera 6 adopts an on-line verification terminal embedded AI algorithm chip, and a high-precision algorithm is directly embedded into the AI algorithm chip (camera internal integration), so that a quick start function (< 1 second quick power-on start judgment identity) is realized; compared with the traditional human face identity authentication equipment, the whole equipment has the performance characteristics of low power consumption, no heat generation, no dead halt, long standby, high reliability, stable and smooth operation of the whole equipment and the like;

The system control computer 3 is provided with a face recognition software module, and adopts a plurality of algorithms such as a binocular living body photo-level anti-counterfeiting algorithm, a high-precision special face recognition algorithm, a two-dimensional code algorithm and the like; after the face recognition software module receives the face recognition information transmitted back by the camera 6, the recognition effect that the speed of the personnel identity verification process is less than 1 second can be achieved;

the comprehensive management platform software system in the system control computer 3 comprehensively manages the face recognition data information carried out by the face recognition software module, thereby meeting the requirement of registration management of students, shortening the registration use time of the students, realizing one-machine registration and being universal nationally;

the display screen 7 on the control host is a high-resolution LED display, the display screen 7 is connected to the HDMI interface of the system control computer 3 through a high-definition data line, and is controlled by the integrated management platform software system, so that teaching contents, propaganda films, use instructions, training and examination action instructions and the like can be displayed;

the AED equipment cabin 5 on the control host is provided with full-automatic AED equipment, the AED equipment is provided with control system software and a positioning system, the control system software of the AED can monitor battery power and equipment fault information of the AED, and the positioning system of the AED can display specific position information of the equipment; the AED is connected with the information management module through the integrated management platform software system which is connected with the system control computer 3 in a wireless way by the control system software and the data information output by the positioning system, so that unified management of AED equipment by the integrated management platform software system can be realized, when personnel need to take the AED, only the cabin door of the AED equipment cabin 5 is opened, the AED equipment can be directly taken for use, and the integrated management platform software system can record the change of the taken position information of the AED, the use condition and other data information;

The first-aid material cabin 8 on the control host is provided with a cardiopulmonary resuscitation bag and a foldable neck brace device, when a person needs to take the cardiopulmonary resuscitation bag and the foldable neck brace, the person only needs to open the cabin door of the first-aid material cabin 8, and the cardiopulmonary resuscitation bag and the foldable neck brace can be directly taken for use;

when a student uses an intelligent training and examining machine to learn, training and examining, the student firstly carries out face recognition registration through a camera 6, after the face recognition is passed, a comprehensive management platform software system prompts the student to take a bag of personal protective materials which are provided with a pair of disposable medical surgical gloves and a disposable breathing film from the protective material reserve tank 10 through a display screen 7 so as to protect the health and the sanitation of the student, and meanwhile, the display screen 7 prompts the student to wear the gloves for training, the gloves can protect the health and the safety of the student and simulate the cleaning of the human body, and the breathing film can protect the mouth of the student from being contacted with the simulated human body, so that the student can carry out related operations with confidence;

the system control computer 3 in the control host is provided with a comprehensive management platform software system module, and the modules are connected with reference to fig. 10, and the main functions of the software system are first-aid training activity management: according to the platform management requirements, uploading and managing training resources of an emergency training resource library, managing and maintaining emergency training activities, and supervising and urging on-line learning activities of students according to learning plans;

Emergency training campaign operation: organizing training content according to management requirements of a platform, setting free or charging strategies, performing daily operation in the process of online learning by a learner, such as managing face recognition information of the learner, performing learning progress management and examination process management, performing operation management, answering management, exercise management, examination management, question and answer management, data management and the like; the students can learn through PC end, mobile phone WeChat, nail, flying book and other application end or platform APP end (participate in first aid training platform study, participate in course browse, select, study unit assigned course, online study, exercise, examination, wrong question feedback, online examination, online answer, study record, course evaluation and other functions, the specific functions are as follows:

first-aid online training course learning: the courses can be selected or purchased autonomously, and the emergency online training courses (which can be executed by independently making a learning plan) of the platform organization are participated in the learning; the online learning mode and the MOOC open interactive teaching mode are fused, and construction or SaaS mode use is implemented through an internal network deployment mode; compared with the traditional online learning system, the online learning system has smoother running speed, convenient operation experience and clear functional modules, and is more in line with the fragmented learning and teaching interaction habit of the user in the mobile Internet age; meanwhile, the behavior information in learning activities can be captured and recorded based on the xAPI standard, the behavior track of a user for computer operation can be obtained through the standard interface, various data of the behavior track of the user in the system can be widely collected, and the key application requirements of PC end and mobile end integration, APP and WeChat (applet) entry integration and the like are met; the platform supports a plurality of learning modes such as a PC end, a mobile end (PAD), a mobile phone (APP, weChat and H5) and the like, the display page is automatically adapted and adjusted, and main stream browsers such as IE10+, IE core browser, google, firefox and the like are supported; the system is developed by adopting the H5 standard, so that the requirement of cross-terminal use is met; mainly adopts 1) a multi-template form: different web templates are adapted to different terminals; 2) Jump form: entering another server in a jump mode, and performing adaptation according to the requested data information; 3) And (3) response type design: uniformly providing a compatibility design mode of multiple terminals, a set of templates, a set of schemes and a set of js class libraries;

On-line examination for emergency training: participating in independent online examination containing subjective questions and objective questions, or integrating exercise, examination, supplementary examination and other contents in courses; the exercise, examination or supplementary examination integrated in the course can be used as the standard-reaching element of the course, and the corresponding point can be obtained after the standard of the student;

personal learning plan preparation: the individual can make up the study plan according to the situation of oneself, each study plan can be combined the emergent online training course that self-selects or purchases freely, study according to the study plan made up according to the progress;

personal information management: personal information management is divided into two aspects, namely personal information maintenance, a student can maintain information required by a network training platform, such as personal face information, besides personal basic information, and the personal information management is used for authentication during online learning and monitoring during online examination; secondly, the personal learning result and information such as the learning time and the score are checked, so that a learner can conveniently master the personal learning result, the examination result, the learning time, the score result, the learning certificate and the like in time; meanwhile, the standard software interface of the certificate library sub-module of the student is connected with the national 120 system and the AED network in the social public place (the data is accessed to the official platform of the 120 emergency system), so that the social emergency personnel can rescue nearby in time;

FIG. 9 is a schematic diagram showing an emergency training intelligent learning and action recognition method of the multifunctional cardiopulmonary resuscitation intelligent training system in the embodiment 1 of the present invention; the motion recognition method comprises three parts of input video, video feature extraction and description, machine learning and mode recognition; extracting edge features, pixel change features and motion features of the video after inputting a multi-class training video sequence, and extracting space-time pyramid feature values to further abstract feature bags; after online dictionary learning and LLC coding are converted, calculating L classification vectors and a conversion matrix N, taking the L classification vectors and the conversion matrix N as one vector dimension which is the basis for making optimal judgment, then combining with collecting a new test video verification pyramid feature library, converting the new test video verification pyramid feature library into feature bag LLC coding, taking the new test video verification pyramid feature library as a second vector dimension, and finally making optimal action recognition judgment;

FIG. 10 is a functional diagram of a comprehensive management platform of the multifunctional cardiopulmonary resuscitation intelligent training system according to embodiment 1 of the present invention; the integrated management platform (integrated management platform software system module) comprises four software modules, namely a student side software module, a teaching assistance side software module, a management side software module and a resource manager software module; the management end software module is respectively connected with the student end software module, the teaching auxiliary end software module and the resource manager software module;

9 submodules are arranged below the software module at the student end, and are respectively: the course center sub-module has the main function of issuing an online learning course; live broadcast activity sub-module, the function is to carry on the interactive teaching of live broadcast online; the training shift sub-module is used for carrying out shift-by-shift management on training in each period; the examination sub-module is used for carrying out on-line examination and examination on the learning results of the students; the questioning coil sub-module has the functions of a learner to investigate and evaluate platform functions, teacher teaching quality and the like; the theme zone sub-module is used for online discussion of teaching content students and teachers; the interaction focusing sub-module has the function that online students and teachers can conduct interaction discussion aiming at learning contents; the integral mall sub-module has the functions that students can integrate in the learning process and the answering process, and corresponding feedback is obtained through integration; the learning file sub-module has the function of enabling students to know the learning process, learning content and effect in real time;

the course center sub-module, the live broadcast activity sub-module and the integral mall sub-module of the student end software module are connected with the teaching management sub-module in the teaching assistance end software module; the training team module is connected with the theme zone module, the interactive attention module, the student management module in the teaching assistance software module and the practical training management module in the teaching assistance software module; the examination sub-module is connected with an online examination sub-module in the teaching auxiliary end software module, an online coil reading sub-module in the teaching auxiliary end software module and a test paper library sub-module in the resource manager software module; the questioning and answering sub-module is connected with a questioning and answering management sub-module in the teaching auxiliary end software module; the learning file sub-module is connected with a student management sub-module in the teaching auxiliary end software module;

The teaching auxiliary end software module is provided with 6 submodules which are respectively: the teaching management sub-module has the functions of editing, uploading, publishing and the like of online teaching courseware by a teacher; the training management sub-module has the functions of making, editing, uploading, publishing and the like of a training course by a teacher; student management sub-module: the teacher carries out learning process knowledge, knowledge grasping degree, examination evaluation result and other management on the students; the question and answer management sub-module enables a teacher to make, edit, upload, release and the like questions in on-line teaching; on-line invigilation submodule: the teacher can conduct invigilation on all students in the on-line examination process; on-line coil reading sub-module: the teacher can score the examination line of the student and read the examination paper;

the teaching management submodule in the teaching auxiliary end software module is connected with the course center submodule, the live broadcast activity submodule, the integral mall submodule and the resource management submodule; the training management sub-module is connected with the training shift sub-module, and the student management sub-module is connected with the training shift sub-module, the learning file sub-module and the certificate library sub-module; the online invigilation submodule is connected with the examination submodule; the online coil reading sub-module is connected with the examination sub-module; the questionnaire management sub-module is connected with the questionnaire library sub-module;

The management end software module is provided with 15 sub-modules which are respectively: the portal management sub-module is used for editing and optimizing a portal applet or an APP; the organization management sub-module is used for iterating and optimizing the organization structure of the whole platform; the user management sub-module is used for managing students, teachers, system administrators and the like on the platform; the permission management sub-module is used for performing permission management on all the platform including students, teachers, system administrators and the like; the policy management sub-module is used for performing policy management on platform upgrading, structure adjustment and the like by aiming at a platform manager; the course management sub-module is used for carrying out version management, release management, update management and the like on all courses; the resource management sub-module is used for managing system resources, software and hardware resources and the like of the platform; the training management sub-module is used for registering, evaluating, individuating and setting training contents for students needing training; the examination management sub-module is used for randomly extracting examination questions of all students, automatically generating examination contents, evaluating examination prison and examination results and the like; the live broadcast management sub-module is used for managing live broadcast content access, interactive release and the like; the special area management sub-module is used for setting a special area for different types of learning contents of students and discussing related learning contents in the special area for management; the point management sub-module is used for carrying out configuration analysis and transaction management on points; the message management sub-module is used for carrying out message generation, pushing and other management on users on all platforms; the course co-creation sub-module has the functions of providing for a teacher, providing for students, providing for a combination and the like; the data statistics sub-module is used for carrying out data acquisition, arrangement, analysis, presentation and the like on various data of the platform;

The portal management sub-module is used as an entry and is an independent module, and the organization management sub-module is connected with the databases of the user management sub-module and the authority management sub-module and has authority to call; the policy management sub-module is connected with the data of the course management sub-module for calling; the resource management sub-module is connected with the database of the examination management sub-module, the course co-creation sub-module and the live broadcast management sub-module and calls real-time data; the retraining management sub-module is connected with the database of the live broadcast management sub-module and the examination management sub-module; the live broadcast management sub-module and the special area management are independent modules; the score management sub-module is connected with the course management sub-module and the examination management sub-module database; the message management sub-module is connected with the organization management sub-module and the user management sub-module; the data statistics submodule is in data connection with all other submodules;

the resource manager module is divided into 10 sub-modules, which are respectively: the courseware library submodule is used for classifying, storing and publishing teaching courseware and managing the teaching courseware; the teacher and resource library sub-module is used for registering teachers on the platform, evaluating results, evaluating teaching tasks and the like; the video library submodule is used for warehousing, classifying, broadcasting management and the like of teaching videos; the document library sub-module is used for classifying all documents on the platform, collecting, warehousing and the like; a style library sub-module for providing a teacher with a courseware education template, a style file, etc.; the test question library sub-module is used for providing a test template for a teacher and automatically generating test questions and the like according to knowledge points; the test paper library submodule is used for generating test paper templates aiming at different requirements on the basis of a test paper library, so that test calling is facilitated; the questionnaire library sub-module is used for forming a basic question library aiming at the evaluation questions presented by the platform to students and teachers and the question warehousing analysis during teaching; the certificate library sub-module has the functions of warehousing and checking after the students obtain the certificates through examination; the picture library sub-module has the function that courseware generated by a teacher in the teaching process can call picture teaching in the library;

The courseware library sub-module is connected with the video library sub-module, the document library sub-module, the picture library sub-module and the style library sub-module in a data manner; the test question library sub-module is connected with the test paper library sub-module in data and invokes the document library sub-module and the picture library sub-module in data; the certificate library sub-module is an independent module, and the questionnaire library sub-module calls courseware library sub-module data;

the training and examining machine comprises a training and examining machine shell 11, an action recognition camera 12, a sliding rail 13, an equipment telescopic tray 14, an AED training machine 15, an equipment tray 16, a training simulator 17, an equipment cabin door 18, a protection cushion 19, an electromagnetic lock 20, a sterilizer 21 and a tablet personal computer 22; the training dummy 17, AED training machine 15, and tablet computer 22 are placed on the device tray 16; the training dummy 17 is fixed on the equipment tray 16 through a dummy back bolt and is in wireless connection with the system control computer 3 through wifi; the AED training machine 15 is fixed on the equipment tray 16 through bolts at the bottom of the training machine and is in wireless connection with the system control computer 3 through wifi; the tablet computer 22 is fixed on the equipment tray 16 through a metal bracket on the computer rear shell, is placed on the shoulder of the training simulator 17, and is in wireless connection with the system control computer 3 through wifi; the equipment tray 16 is connected with the telescopic tray 14 by using a high-strength telescopic silent sliding rail 13, and the equipment tray 16 is connected with the equipment cabin door 18 by using a high-strength resettable hinge;

Paving a protection soft cushion 19 on an equipment cabin door 18 on the intelligent training and examining machine for cardiopulmonary resuscitation, wherein the protection soft cushion 19 is high-density sponge; an electromagnetic lock 20 is arranged on the equipment cabin door 18, a wifi wireless module arranged in the electromagnetic lock 20 is connected with the system control computer 3, the system control computer 3 can carry out an opening instruction on the electromagnetic lock 20 through a comprehensive management platform software system, and the electromagnetic lock 20 can be automatically adsorbed and locked when pushed back to the cardiopulmonary resuscitation intelligent training and examining machine;

the training simulator 17 has real pressing hand feeling, can experience the acting force and the reacting force of external chest pressing, and truly restores the clinical experience; the training simulator simulates a chest area of a person 17 and an AED electrode sheet magnetic induction area arranged in a rib, when an AED training machine is used for defibrillation, electric shock feedback exists, the chest of the model has fluctuation, and the muscle strengthening effect generated by electric shock reflects reality;

the AED training machine 15 simulates the operation flow of the real AED equipment, full-flow voice indication, is provided with a reusable magnetic electrode sheet, and can be adsorbed on the chest area of the semi-training simulator 17 and the magnetic induction area of the AED electrode sheet arranged in the rib;

the tablet computer 22 is connected with the training simulator and the system control computer through WIFI;

the sterilizer 21 is a medical high-efficiency deep ultraviolet sterilizing lamp, the tail end of the sterilizer is provided with a touch type power switch, the external radiation wavelength is 200-300 nm, the power is more than 10w, the sterilizer is fixed on the inner wall of a cabin for placing the equipment telescopic tray 14 by using bolts, when the equipment cabin door 18 returns, the sterilizer 21 is touched to the touch type power switch, and the sterilizer starts to sterilize;

The motion recognition camera 12 on the cardiopulmonary resuscitation intelligent training and examining machine is connected to an HDMI interface of the system control computer 3 by adopting a high-definition video data line, the motion recognition camera 12 adopts a behavior analysis technology based on motion feature capturing and voice recognition matching of AI deep learning, adopts an intelligent three-dimensional motion and matrix voice recognition terminal and GPU calculation, tracks a target at a high speed in real time, can truly and comprehensively reflect three elements of target object position (XYZ), displacement and acceleration, accurately recognizes a target object voice instruction by utilizing a matrix pickup module, and comprehensively judges the behavior mode and intention of a target object;

the motion recognition software module in the system control computer 3 is a deep learning model established according to the standard operation flow of cardiopulmonary resuscitation, the motion recognition software module in the system control computer 3 receives the motion and voice data of the motion recognition camera 12 and makes corresponding recognition, the comprehensive management platform software system in the system control computer 3 combines the training simulation person 17 data after receiving the recognition data of the motion recognition software module, automatically judges whether the simulation training treatment process is accurate in place, fully reflects effective information such as motion information, macroscopic motion state, motion trend, motion edge contour information, motion detail and the like of a student, assists an assessment director in giving assessment, and greatly reduces the manual strength.

3-1, which is a schematic diagram of a standby state of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training machine in the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 1 of the present invention; fig. 4-1 is a schematic diagram showing the working states of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training and examining machine in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 1 of the present invention.

Example 2

The other steps are the same as in example 1, except that: 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training and examining machine (split), as shown in fig. 3-2, is a schematic diagram of standby state of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training and examining machine (split) in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 2 of the present invention; the left side of the figure is a multifunctional cardiopulmonary resuscitation intelligent training machine, and the right side is a control host; fig. 4-2 are (split) working state diagrams of 1 control host+1 multifunctional cardiopulmonary resuscitation intelligent training and examining machine in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 2 of the present invention; the left side of the figure is a multifunctional cardiopulmonary resuscitation intelligent training machine, and the right side is a control host.

Example 3

The other steps are the same as in example 1, except that: 1 control host computer +2 multi-functional heart lung resuscitation intelligence examination machine.

Fig. 5 is a schematic diagram of a standby state of 1 control host+2 multifunctional cardiopulmonary resuscitation intelligent training machines in the multifunctional cardiopulmonary resuscitation intelligent training system according to embodiment 3 of the present invention; fig. 6 is a schematic diagram showing the working states of 1 control host+2 multifunctional cardiopulmonary resuscitation intelligent training machines in the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 3 of the present invention.

Example 4

The other steps are the same as in example 1, except that: 1 control host+7 multifunctional cardiopulmonary resuscitation intelligent training and examining machine.

Fig. 7 is a schematic diagram of a standby state of the multifunctional cardiopulmonary resuscitation intelligent training machine with 7 control hosts in the multifunctional cardiopulmonary resuscitation intelligent training system in embodiment 4 of the present invention; fig. 8 is a schematic diagram of a standby state of the multifunctional cardiopulmonary resuscitation intelligent training and examining machine with 7 control hosts in the multifunctional cardiopulmonary resuscitation intelligent training and examining system in embodiment 4 of the present invention.

Example 5

The other steps are the same as in example 1, except that: 1 control host+35 multifunctional cardiopulmonary resuscitation intelligent training and examining machine.

Application example 1:

taking example 1 as an example, the multifunctional cardiopulmonary resuscitation intelligent training and testing system comprises the following operation steps:

the multifunctional cardiopulmonary resuscitation intelligent training and examination system comprises seven functions of emergency course learning, cardiopulmonary resuscitation practical operation training, cardiopulmonary resuscitation examination and evidence, cardiopulmonary resuscitation training derivative functions (competition and multiple scenes), cardiopulmonary resuscitation training function, on-site emergency, and management of emergency personnel after evidence collection, and the implementation is as follows:

First-aid course learning

1. Downloading an applet or logging in a PC by a student mobile phone, and registering a user;

2. logging in by using a user name and password, and selecting an emergency course learning interface;

3. and selecting course content to perform theoretical learning (the course is a video courseware of an emergency center).

(II) cardiopulmonary resuscitation practice training

1. The student mobile phone downloads an applet or a PC logs in to a website, and registers the user (the registered student ignores the step);

2. logging in a member interface, and selecting an actual operation training option by using a two-dimensional code of mobile phone applet scanning equipment;

3. the electromagnetic lock 20 of the cabin door of the intelligent training and examining machine for cardiopulmonary resuscitation is sprung off, and the equipment voice prompts the learner to pull out the training simulator 17 (the training simulator 17 is powered on and the tablet computer 22 is started);

4. after the equipment trays 16 are all pulled out, the voice prompt trains the dummy 17 to be in place;

5. after the training simulator 17 is in place, the learner is prompted by voice to take gloves and breathing films from the protective material reserve tank 10 of the main body of the cardiopulmonary resuscitation control main body, and the gloves are worn with the breathing films for standby;

6. the device voice prompts the learner to stand to a designated position in front of the training simulator 17;

7. the equipment starts a cardiopulmonary resuscitation training process by voice prompt, and the equipment guides voice;

8. Operation guidance (1): judging the environmental safety, wherein a student lifts up the double arms and shouts the 'environmental safety', the system judges whether the action of the student is standard or not, if the action of the student is in accordance with the standard, the student enters the operation guide (2), and if the action of the operation guide (1) is not in accordance with the standard system prompt and is retried according to the operation guide;

9. operation guidance (2): judging the consciousness of the wounded person, the learner kneels on the left side of the training dummy 17, the learner flaps the shoulders of the training dummy 17 with both hands, and shouts around the ears on both sides of the head of the training dummy 17 are "how is you? The system judges whether the action of the student is standard or not, if the action of the student is in accordance with the standard, the operation guide (3) is entered, and if the action of the operation guide (2) is retried according to the operation guide if the action of the student is not in accordance with the standard system prompt;

10. operation guide (3): judging breathing of a wounded person, enabling a student to enable a head to fall and use an ear to be close to the mouth and nose of the training simulation person 17, enabling eyes to observe the chest of the training simulation person 17 and stay for 10 seconds, judging whether the action of the student is standard or not by a system, entering the operation guide (4) if the action of the student is standard, and retraining the action of the operation guide (3) according to the operation guide if the action of the student is not standard;

11. operation guide (4): judging the heart beat of the wounded person, touching the neck of the training simulator 17 by a finger of a learner to approach the carotid artery of the learner, judging whether the action of the learner is standard or not by the system, entering the operation guide (5) if the action of the learner is standard, and retraining the action of the operation guide (4) according to the operation guide if the action of the learner is not standard;

12. Operation guide (5): calling rescue assistance, wherein a student stretches out arms forwards and shouts 'please help me to dial 120', 'please help me to get AED', the system judges whether the action of the student is standard or not, if the action of the student is in accordance with the standard, the student enters the operation guide (6), and if the action of the operation guide (5) is not in accordance with the standard system prompt and is retried according to the operation guide;

13. operation guide (6): the chest compression operation is carried out, the two arms of the student are straightened and clamped, the palm root is pressed at the designated position of the sternum of the training simulation person 17, the compression frequency and depth are guided by the tablet computer 22 to start compression, the system counts 30 times, the system judges whether the action of the student is standard, if the action of the student is in accordance with the standard, the student enters the operation guide (7), and if the action of the operation guide (6) is not in accordance with the standard system prompt, the action of the operation guide is retried;

14. operation guide (7): the artificial respiration operation, a trainee covers the mouth and nose of the training dummy 17 with a breathing film, the outer side of the left palm presses the forehead of the training dummy 17, the right hand holds up the lower jaw of the training dummy 17 to enable the nostrils of the training dummy 17 to be flushed to the sky, the left hand holds the two sides of the nose wings of the training dummy 17 with the index finger and the thumb, the right hand opens the oral cavity of the training dummy 17, the mouth of the training dummy 17 is covered by the mouth to rapidly blow (the tablet computer 22 shows effective blowing), the blowing process is repeated once, the system judges whether the action of the trainee is standard, if the action of the training dummy is in accordance with the standard entering operation guide (8), and if the action of the training operation guide (7) is not in accordance with the standard system prompt according to the operation guide;

15. Operation guide (8): repeating the above actions, wherein the student repeatedly presses and blows the action for two times, the system judges whether the action of the student is standard, if the action of the student is in accordance with the standard, the student enters the operation guide (9), and if the action of the operation guide (8) is retried according to the operation guide if the action of the student is not in accordance with the standard system prompt;

16. operation guide (9): the electric defibrillation operation, the trainee turns on the AED training machine 15, takes out the electrode plate, sticks to the chest rib of the training simulator 17 according to the instruction, turns on the power supply of the AED training machine 15, directly turns on the body to open the two arms, shouting out that the patient is not in contact with the body, waits for the defibrillation to be completed, the system judges whether the action of the trainee is standard, enters the operation guide (10) if the action of the operation guide is in accordance with the standard, and retries the action of the operation guide (9) according to the operation guide if the action of the operation guide is not in accordance with the standard system prompt;

17. after the training links are completed, the tablet computer 22 and voice prompt training are completed, the related equipment such as the AED training machine 15 and the like are received, the system judges whether the AED electrode plates are reset and whether the power supply is closed, if the electrode plates are reset and the power supply is closed, the system enters the next step, and if the electrode plates are not reset and the power supply is not closed, the system repeatedly prompts the trainee that the equipment is not reset;

18. the panel computer 22 displays and prompts the student to push the equipment cabin door 18 back to the reset state, the display screen 7 displays the end of the training, the system judges whether the equipment cabin door is reset or not, if the reset display screen 7 displays the end of the training, the system repeatedly prompts the student that the cabin door is not reset if the reset state is not.

19. The sterilizer 21 starts the ultraviolet sterilization process for 1 minute.

(III) cardiopulmonary resuscitation assessment and evidence

2. logging in a member interface, and selecting an examination evidence collection option by using a two-dimensional code of mobile phone applet scanning equipment;

3. the electromagnetic lock 20 of the equipment cabin of the intelligent training and examining machine for cardiopulmonary resuscitation is sprung off, equipment voice prompts a student to pull out the training simulator 17 (the training simulator 17 is powered on, and the tablet computer 22 is started);

4. after the equipment tray 16 is pulled out completely, the equipment voice prompts the training simulator 17 to be in place;

7. the equipment voice prompts to start a heart-lung resuscitation training examination flow, and the tablet computer 22 displays the examination start;

the following is an automatic background recognition process of the device action recognition camera 12, and related prompts are not performed in the checking process:

8. before the trainee stands on the training simulator 17, he/she can hold his/her hands left and right and shout of the environment safety;

9. The recognition learner beats the shoulders of the training dummy 17 with both hands and shouts on both sides of the head of the training dummy 17 "how do you get? ";

10. the recognition student uses the ear to close to the mouth and nose of the training dummy 17 when the head is low, and the eyes observe the chest of the training dummy 17 and stay for 10 seconds;

11. the recognition learner touches the neck of the training simulator 17 with the finger to approach the carotid artery of the learner;

12. identifying that the student extends arms forwards and shouting "please help me dial 120", "please help me get AED";

13. recognizing effective pressing and effective blowing of students (training the sensor of the simulator 17 to finish data perception and transmission)

14. Recognizing that the interval between the pressing and blowing replacement of the student is not more than 3 seconds;

15. recognizing that the arms of the student straighten and form an inverted triangle with the shoulders, and the hands do not leave the body of the training simulator 17 in the pressing process;

16. after the electrode plates of the AED training machine 15 are attached (the training simulator 17 sensor finishes data sensing and transmission), the recognition learner lifts both hands to the two sides and shout of 'please not touch the patient';

17. after the operation is completed, the tablet computer 22 prompts the student to complete the examination and requires the examination person to collect related articles such as the AED training machine 15, and the tablet computer 22 displays that the student returns the training simulator 17 to wait for the examination result;

18. Case one: the examination fails, and the display screen 7 displays that the examination fails and informs the operation of the deduction item;

19. and a second case: the examination passes, and the display screen 7 displays that the examination result is submitted and waits for issuing a certificate; (the system uploads the file of the photo data reserved by each key action index of the student to the cloud server of the system for recording, an auditor can log in the background by using the account number of the self administrator, the spot check checking device submits the file of recording checked by the student, the relevant qualification certificate is sent to the mobile phone end of the student in an electronic version mode, and the certificate file can be checked and downloaded in a system website, and the like).

(IV) cardiopulmonary resuscitation training derivative (Competition, multi-scenario)

1. Competition: the function is the interesting function of the equipment, a competition mode can be selected, the competition mode can be used for developing first-aid skill with other students, the operation flow is the same as the training mode, but the function only supports the multifunctional intelligent cardiopulmonary resuscitation training system;

2. multiple scenarios: and various scene settings such as highways, campuses, water edges and the like can be added under the training mode or the assessment mode.

(V) cardiopulmonary resuscitation training

1. The function supports the delayed retraining of the checked emergency personnel and the validity of the continuous qualification certificate (retraining once in two years);

2. And selecting the training mode to be the same as the checking mode, and finally informing whether the training is passed or not, if so, informing a training person through equipment, and if so, prolonging the validity of the qualification certificate of the training person for two years.

Sixth first aid function

1. The AED equipment compartment 5 on the control host can be used for medical emergency, if a patient suffering from sudden cardiac arrest breaks the seal of the AED equipment compartment 5, the AED equipment compartment 5 is opened by pulling the lock catch, the AED is taken out for emergency, the use place and frequency of the equipment are positioned at the background, and the emergency personnel of a 120 emergency vehicle help to recover the AED;

2. the breathing air bag in the first-aid material cabin 8 on the control host is suitable for occasions needing artificial respiration first aid during cardiopulmonary resuscitation, in particular for the situations of choking, dyspnea or oxygen supply improvement; has the characteristics of convenient use, light pain, less complications, convenient carrying and immediate ventilation with or without oxygen source; when in use, the sealing strip of the cabin door of the first-aid material cabin 8 can be torn off, the lock catch is pulled to open the cabin door of the first-aid material cabin 8, and the breathing air bag is taken out for first aid;

3. the foldable neck support in the first-aid material cabin 8 on the control host is suitable for sudden accidental injuries such as falling injury, car accident, falling, collision and the like, and the wounded person temporarily fixes the head and the neck for use, so that the effects of braking and protecting the cervical vertebra, reducing nerve abrasion and relieving traumatic reaction of intervertebral joints can be achieved; when in use, the sealing strip of the cabin door of the first-aid material cabin 8 can be torn off, the lock catch is pulled to open the cabin door of the first-aid material cabin 8, and the foldable neck support is taken out for first-aid;

4. The first-aid materials such as an elastic bandage, a tourniquet, a triangular towel, a dressing and the like are placed in the first-aid materials reserve tank 9 on the control main machine, and can be used for trauma first-aid such as hemorrhage, fracture and the like; when in use, the sealing strip of the cabin door of the first-aid material storage box 9 can be torn off, the lock catch is pulled to open the cabin door of the first-aid material storage box 9, and related articles are taken out for first aid.

Seventh evidence-taking emergency personnel management

The emergency personnel management function performs certificate inquiry, promotion management, retraining management, capability assessment and the like on personnel who have acquired emergency personnel certificates.

The multifunctional cardiopulmonary resuscitation intelligent training and examination system and the application thereof fundamentally subvert the prior cardiopulmonary resuscitation training and examination technology and teaching mode, solve the technical problems existing in the prior cardiopulmonary resuscitation education, training, examination, retraining and emergency personnel management, fill the technical blank at home and abroad, and have the following obvious technical effects:

1) The functions are complete, and the intelligent degree is high. Seven functions of teaching, training, competition, examination, evidence issuing, re-examination and on-site first aid are realized, and guided intelligent interaction, unmanned and autonomous cardiopulmonary resuscitation learning, training and assessment of students are realized;

2) Flexible and convenient for students to train. Breaking through the limitation of training examination time, place, classroom, teacher, teaching material and teaching aid, the learner can learn, train and take evidence by using the fragmented time at any time and any place;

3) The cost is saved, and the popularization and the promotion are convenient. As the small class teaching mode, one-to-one and one-to-one handle training mode and examination mode are overturned, tens of millions of students can learn independently through the technology product and the fragmentation time is utilized, so that various cost fees of classrooms, teaching materials, teaching aids, teachers, misworkers, traffic, accommodation and the like are greatly saved, the training examination cost is greatly reduced, the large-area development of training and examination by the whole people is facilitated, and the popularization and popularization of the whole society are facilitated;

4) Standard specification, ensuring evidence obtaining quality. The novel technologies such as face recognition, artificial intelligence, authoritative certification lessons, unified examination standards, laser radar positioning technology, high-sensitivity sound capturing technology, intelligent simulation standard cardiopulmonary resuscitation dummy, teaching case development big data system and comprehensive management platform are intensively applied, so that the training examination standards are scientifically unified, the whole process is left with marks, the problems of non-unification of the standards and non-strict management in the training examination process are fundamentally eliminated, and the consistency of the certificate gold content is ensured.

The multifunctional cardiopulmonary resuscitation intelligent training and examining system and the application thereof can simultaneously configure a plurality of cardiopulmonary resuscitation intelligent training and examining machines by one control host, realize simultaneous learning, training or examination of multiple students and save equipment cost and sites.

The multifunctional cardiopulmonary resuscitation intelligent training and examination system effectively solves the problems of low efficiency, high cost, high difficulty, non-uniform examination standard, lack of management after examination of a social first aid, and the like in the work of cardiopulmonary resuscitation teaching, training, examination and retraining and the like in the fields of the prior public and medical profession, fills up the blank of the cardiopulmonary resuscitation training technology at home and abroad, reduces the training cost, reduces the training difficulty, improves the training quality, popularizes social first aid knowledge, perfects a social first aid system, and protects the life safety of masses.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. A multifunctional cardiopulmonary resuscitation intelligent training and examination system is characterized in that: the training and examining device comprises a control host and a training and examining machine, wherein the control host is connected with the training and examining machine through a wire or a wireless; the control host comprises a host panel, a host shell, a system control computer, a camera and a display screen, wherein the camera and the display screen are respectively connected with the system control computer.

2. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 1, wherein: the system control computer is positioned in the main machine shell, and the camera is arranged on the main machine panel.

3. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 1, wherein: the training and examining machine comprises a training and examining machine shell, an action recognition camera, a sliding rail, an equipment telescopic tray, an AED training machine, an equipment tray, a training simulator, an equipment cabin door and a tablet personal computer; the training simulator, the AED training machine and the tablet personal computer are positioned on the equipment tray and are respectively connected with the system control computer; the equipment tray is connected with the telescopic tray through a sliding rail, and is connected with the equipment cabin door through a hinge.

4. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 1, wherein: the training and examining machine also comprises a protection soft cushion and an electromagnetic lock; the protection cushion and the electromagnetic lock are arranged on the equipment cabin door; the electromagnetic lock is connected with the system control computer.

5. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 3, wherein: the training simulator, the AED training machine and the tablet personal computer are respectively fixed on the equipment tray.

6. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 1, wherein: the control host also comprises a maintenance cabin, an AED equipment cabin, an emergency material storage box and a protective material storage box which are all positioned in the host shell; the AED equipment compartment houses AED equipment; the first-aid material cabin is used for placing a cardiopulmonary resuscitation bag and a foldable neck brace device; the protective material reserve tank is provided with disposable medical gloves and a disposable breathing film.

7. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 1, wherein: the system control computer is provided with a comprehensive management platform software system module which comprises four software modules, namely a student side software module, a teaching auxiliary side software module, a management side software module and a resource manager software module, wherein the management side software module is respectively connected with the student side software module, the teaching auxiliary side software module and the resource manager software module.

8. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation of claim 7, wherein: 9 submodules are arranged below the student end software module, and are respectively: the system comprises a course center sub-module, a live activity sub-module, a training shift sub-module, an examination paper sub-module, a theme zone sub-module, an interactive attention sub-module, an integral mall sub-module and a learning file sub-module; the course center sub-module, the live broadcast activity sub-module and the integral mall sub-module of the student end software module are connected with the teaching management sub-module in the teaching assistance end software module; the training team module is connected with the theme zone sub-module, the interactive attention sub-module, the student management sub-module and the practical training management sub-module; the examination sub-module is connected with the online examination sub-module, the online coil reading sub-module and the examination paper library sub-module; the questioning coil sub-module is connected with the questioning and answering management sub-module; the learning file sub-module is connected with the student management sub-module;

9. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 3, wherein: the training simulation human chest area and rib built-in AED electrode slice magnetic induction area; the AED training machine is provided with a reusable magnetic electrode slice which is adsorbed on a chest area of a training simulator and a magnetic induction area of the AED electrode slice arranged in a rib; the tablet personal computer is connected with the training simulator and the system control computer; the action recognition camera is connected to an HDMI interface of the system control computer by adopting a video data line; the action recognition software module in the system control computer is a deep learning model established according to the standard operation flow of cardiopulmonary resuscitation; and a face recognition software module is arranged in the system control computer.

10. The intelligent training and examination system for multifunctional cardiopulmonary resuscitation according to claim 1, wherein: the control host is 1, and the training and examining machine is within 35.