CN117942048A - First-aid system and processing method - Google Patents

Abstract

An emergency system and a processing method are used for emergency in public places, the emergency system comprises a monitoring device and a plurality of AED emergency systems, the monitoring device is used for acquiring body data and automatically switching connection according to the strength of signals of the AED emergency systems; the AED emergency system comprises a signal generation unit, an AED emergency unit, a scheme analysis unit, a scheduling unit and a video segmentation unit, wherein the signal generation unit is used for sending out communication signals; the AED emergency unit carries out electric defibrillation emergency treatment on a patient; the scheme analysis unit judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment scheme; the scheduling unit calls the playing device in the current occasion according to the position of the monitoring device; the video segmentation unit segments the emergency video and sends the emergency video to a plurality of target playing devices for playing after adjusting the offset scale corresponding to the candidate segmentation point in the emergency video time sequence section of the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system.

Description

First-aid system and processing method

Technical Field

The invention relates to the technical field of medical instruments, in particular to an emergency system and a treatment method.

Background

Early 85% -90% of patients with cardiac arrest are ventricular fibrillation, and the most effective method for treating ventricular fibrillation is early use AED (Automated External Defibrillator) of defibrillation. After ventricular fibrillation occurs, most effective defibrillation is performed within 3-5 minutes, and the survival rate is reduced by 7% -10% every 1 minute delay of defibrillation. Placement of AED emergency equipment in public places is an important method of reducing sudden cardiac death.

However, a series of problems must occur during the delivery of the AED in public places, such as the inability of emergency personnel to select the nearest AED cabinet in time, the inability to select the optimal emergency regimen, and the inability to quickly obtain the manner in which the AED is used.

Accordingly, the problems of the prior art are to be further improved and developed.

Disclosure of Invention

(One) object of the invention: in order to solve the above-mentioned problems in the prior art, an object of the present invention is to provide an emergency system and a treatment method.

(II) technical scheme: in order to solve the technical problems, the technical proposal provides an emergency system, which comprises a monitoring device and a plurality of AED emergency systems,

The monitoring device is used for acquiring body data, automatically switching connection signals according to the strength of signals of the AED emergency system in real time, connecting the AED emergency system nearest to the monitoring device, and sending the body data to the AED emergency system in real time;

The AED emergency system comprises a signal generation unit, an AED emergency unit, a scheme analysis unit, a scheduling unit and a video segmentation unit, wherein the signal generation unit is used for sending out communication signals; the AED emergency unit implements an electrical defibrillation emergency for the patient; the scheme analysis unit judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment scheme; the scheduling unit calls a playing device in the current occasion according to the position of the monitoring device; the video segmentation unit segments the emergency video and sends the emergency video to a plurality of target playing devices for playing after adjusting the offset scale corresponding to the candidate segmentation point in the emergency video time sequence section in the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system.

The communication module of the monitoring device sends signal information to the AED emergency system in real time, and the dispatching unit of the AED emergency system determines the position circle of the monitoring device according to the signal information; the signal information comprises a connection signal and a signal intensity corresponding to the current connection signal;

The monitoring device also comprises a positioning device, wherein the positioning device acquires the position of the monitoring device in real time to obtain positioning information, and the positioning information is sent to the AED emergency system in real time through the communication module;

the storage unit of the AED emergency system stores an isometric map of public places where the AED emergency system is located, the isometric map labeled with the location of each AED.

The first-aid system, wherein the dispatching unit judges the accuracy of the current monitoring device position according to the position circle, the positioning information and the equal proportion map of the monitoring device,

Firstly, a scheduling unit of the AED emergency system copies the proportional map to obtain a first position mark map, marks a position circle of a current monitoring device in the first position mark map according to the signal information to obtain a complete first position mark map;

secondly, the scheduling unit of the AED emergency system copies the proportional map to obtain a second position mark map, marks the position of the current monitoring device in the second position mark map according to the positioning information, and obtains a complete second position mark map;

Then, a scheduling unit of the AED emergency system performs coverage fusion on the first position mark graph and the second position mark graph;

Finally, the scheduling unit of the AED emergency system determines whether the positioning information is placed in the position circle by comparing the position circle in the first position mark diagram and the positioning information in the second position mark diagram, thereby judging whether the acquired position of the current monitoring device is accurate.

The first-aid system comprises a storage unit, a first-aid system and a second-aid system, wherein the storage unit stores a topographic map of a public place where the AED first-aid system is arranged, positions of all playing devices in the place are marked in the topographic map, and playing viewing position grade areas corresponding to different playing devices; the playing and viewing position grade area comprises a first-level viewing area corresponding to the optimal viewing position corresponding to each playing device and a second-level viewing area corresponding to the viewable position.

The scheduling unit selects a target playing device according to the determined position of the accurate current monitoring device, specifically, the scheduling unit marks the position of the accurate current monitoring device in the topographic map, and selects an optimal playing device and a visual playing device according to the playing device corresponding to the area where the position is located, wherein the optimal playing device and the visual playing device are the target playing device; the area where the current monitoring device is located is a playing device corresponding to the first-level viewing area and is the optimal playing device; the area where the current monitoring device is located is a playing device corresponding to the secondary viewing area, and the playing device is a viewable playing device.

The first-aid system comprises a video segmentation unit, a first-aid video transmission unit and a first-aid video transmission unit, wherein the video segmentation unit determines the segmentation point of the first-aid video according to the distance between an optimal playing device/visual playing device and the first-aid system of an AED corresponding to a signal generation unit connected with the current monitoring device according to the distance between the optimal playing device/visual playing device and the first-aid system of the AED; the distance between the best play device/visual play device where the current monitoring device is located and the AED emergency system corresponding to the signal generating unit to which the current monitoring device is signally connected is referred to as the offset distance.

The first aid system wherein the topography map is marked with the location of each AED first aid system in the public location and the distance between each AED first aid system and the different play device;

The storage unit of the AED emergency system stores an offset comparison table, the offset comparison table comprises offset distance sections, each offset distance section is marked with an offset center, and the offset center is the center number in the offset distance section;

the first-aid video comprises time sequence segments, a candidate dividing point is arranged between every two adjacent time sequence segments, each candidate dividing point is correspondingly provided with an offset scale, and the candidate dividing point moves along with the movement of the offset scale;

and the video segmentation unit segments candidate segmentation points corresponding to the offset scale in the emergency video after adjusting the offset scale of the time sequence section according to the offset distance, so as to realize segmentation of the emergency video.

The first aid system, wherein the video segmentation unit adjusts the offset scale of the time sequence section according to the offset distance, segments the candidate segmentation points corresponding to the offset scale in the first aid video, specifically by the following way,

The video segmentation unit reads the distance between the optimal playing device/visual playing device at the position of the current monitoring device in the topographic map and the AED emergency system corresponding to the signal generating unit connected with the current monitoring device to obtain the current offset distance;

The video segmentation unit selects an offset distance segment where the current offset distance is located in an offset comparison table according to the current offset distance, and acquires an offset center of the offset distance segment;

The video segmentation unit makes a difference between the current offset distance and the offset center to obtain an offset scale moving distance;

And the video segmentation unit segments the emergency video by using candidate segmentation points corresponding to all the offset scales after adjusting all the offset scales in the emergency video according to the moving distance of the offset scales.

The AED emergency system transmits and sorts segmented emergency videos according to the distance between the optimal playing device/visual playing device and the AED emergency system corresponding to the signal generating unit connected with the current monitoring device through signals, and then sends the segmented emergency videos to different target playing devices for playing.

A first-aid treatment method is applied to the first-aid system,

The monitoring device acquires body data, automatically switches connection signals according to the strength of signals of the AED emergency system in real time, connects the AED emergency system nearest to the monitoring device, and sends the body data to the AED emergency system in real time;

the signal generating unit of the AED emergency system sends out a communication signal, and the monitoring device is connected with the signal when entering the signal area, so that data transmission between the AED emergency system and the monitoring device is realized;

A scheme analysis unit of the AED emergency system judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment scheme;

the scheduling unit of the AED emergency system calls the playing device in the current occasion according to the position of the monitoring device;

the video segmentation unit of the AED emergency system segments the emergency video in the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system and then sends the segmented emergency video to a plurality of target playing devices for playing;

An AED emergency unit of the AED emergency system provides electrical defibrillation emergency to the patient in accordance with an emergency regimen.

(III) beneficial effects: the invention provides an emergency system and a processing method, wherein an optimal playing device is selected according to the position of a monitoring device to display an emergency scheme, so that an emergency basis is provided for emergency personnel; according to the position of the monitoring device, the AED emergency unit is moved to the position of the patient, so that emergency personnel are prevented from searching the AED emergency unit, and the best emergency opportunity is delayed; the emergency video in the emergency scheme is segmented and then sent to different optimal playing devices, so that the problem that the emergency is influenced due to the fact that playing is blocked due to the transmission speed is avoided.

Drawings

FIG. 1 is a schematic diagram showing steps for determining the position accuracy of a monitoring device in an emergency system and a processing method according to the present invention;

Fig. 2 is a schematic diagram of implementation steps of dividing an emergency video by adjusting an offset scale of a time sequence segment by a video dividing unit in the emergency system and the processing method of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the preferred embodiments, and more details are set forth in the following description in order to provide a thorough understanding of the present invention, but it will be apparent that the present invention can be embodied in many other forms than described herein, and that those skilled in the art will be able to make similar generalizations and deductions depending on the actual application without departing from the spirit of the present invention, and therefore should not be limited in scope by the context of this particular embodiment.

The drawings are schematic representations of embodiments of the invention, it being noted that the drawings are by way of example only and are not drawn to scale and should not be taken as limiting the true scope of the invention.

An emergency system and a processing method are suitable for emergency treatment in public places, so that effective emergency treatment in a short time is realized.

An emergency system includes a patient-worn monitoring device and a plurality of AED emergency systems disposed in a public location. The monitoring device is used for acquiring body data of a wearer, and the AED emergency system realizes electric defibrillation of a patient to be emergency according to the body data.

The monitoring device comprises one or more of a monitoring bracelet, a monitoring hairband, a monitoring sock body and a monitoring patch. The monitoring bracelet is worn on the wrist and used for acquiring hand data of the Neiguan acupoint. The monitoring hairband is worn on the head and used for acquiring brain data. The monitoring sock body is worn on the foot and/or ankle joint and is used for monitoring foot data.

The body data includes one or more of hand data, brain data, foot data. The monitoring bracelet can obtain heart rate data of a wearer according to the hand data; the monitoring hairband can obtain heart rate data of a wearer according to brain data; the monitoring sock body can obtain heart rate data of a wearer according to foot data.

The monitoring device monitors the temperature, the heartbeat, the respiration, the ground fall, the movement state and other functions of the person according to the monitored hand data, brain data or foot data, and acquires the pulse, the heartbeat and other information of the monitored person according to the monitored hand data, brain data or foot data.

The monitoring device comprises a communication module, wherein the communication module comprises a signal connection function and a data transmission function. The communication module automatically switches connection signals according to the strength of the signals in real time and connects the AED emergency system nearest to a monitor (current monitoring device). The data transmission function of the communication module sends body data to the AED emergency system in real time according to the connected AED emergency system.

The AED emergency system comprises a protection cabinet body, a signal generation unit, an AED emergency unit, a scheme analysis unit and a scheduling unit. The signal generating unit, the AED first-aid unit and the scheduling unit are respectively arranged in the protection cabinet body, and the protection cabinet body realizes daily maintenance protection of the AED first-aid system. The signal generating unit is used for sending out a communication signal, the communication signal covers a signal which takes the protection cabinet body as the center and takes the first threshold value as the radius, and when the monitoring device enters the signal area, the signal is connected, so that data transmission between the AED emergency system and the monitoring device is realized. The AED emergency unit implements an electrical defibrillation emergency to the patient. The proposal analysis unit judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment proposal. The scheduling unit calls a playing device in the current occasion according to the position of the monitoring device (patient), and selects a target playing device to play the emergency video in the emergency scheme.

The protection cabinet body is of a column structure, can be a cylinder or a cuboid, and is not particularly limited herein. The side wall of the protection cabinet body is provided with a switch door which can be opened manually or automatically, and when the scheme analysis unit selects a corresponding first-aid scheme, the scheme analysis unit sends a switch control command to the switch door according to the current first-aid scheme.

The protection cabinet body is provided with a protection device, and the protection device is used for preventing an AED emergency system arranged outdoors from being damaged due to bad weather such as rain, snow and the like, thereby influencing the use of the AED emergency system.

The protection cabinet is internally provided with a power interface, the position of the power interface is matched with the charging port of the AED emergency unit, and when the AED emergency unit is reset, the charging port of the AED emergency unit is connected with the power interface, so that the power supply to the AED emergency unit is realized.

The signal generating unit may be a wifi signal transmitting device or a bluetooth signal transmitting device, so long as high-speed transmission of data can be ensured, and the method is not particularly limited herein.

The AED emergency unit includes an AED device and a travel device. The AED device is disposed on the travel device which enables detection of patient arrhythmia and provides shock therapy. The travelling device transports the AED device to a target emergency location.

The AED device includes an electrode patch for delivering electrical signals to the heart, a host, which is the brain of the AED device, for detecting arrhythmias, and for providing shock therapy, and a battery. The battery provides energy support for the shock therapy process.

The AED device incorporates an analysis program that automatically detects the heart rate of a patient suffering from cardiac arrest, and if it is a defibrillation rate, the AED automatically charges and shock to terminate the lethal heart rate.

The solution analysis unit determines an emergency solution of the current patient according to the body data, specifically, the storage unit of the AED emergency system stores an emergency solution data comparison library, the emergency solution data comparison library includes different body data and emergency solutions corresponding to the different body data, the solution analysis unit searches the emergency solution data comparison library for the current body data, and the emergency solution corresponding to the current body data is the current emergency solution. The AED emergency system may also include an emergency model, and the protocol analysis unit outputs a corresponding emergency protocol after inputting current data into the emergency model, without limitation.

The first-aid proposal comprises a corresponding first-aid demonstration video, the scheduling unit calls a playing device in the current occasion according to the position of the monitoring device worn by the patient, and selects the playing device corresponding to the optimal watching position of the monitoring device to obtain a target playing device. The AED emergency system is connected with all playing devices in the current occasion, so that the calling of the AED emergency system to the playing devices is ensured.

The communication module of the monitoring device sends signal information to the AED emergency system in real time, and the dispatching unit of the AED emergency system determines the position circle of the monitoring device according to the signal information. The position circle is a signal intensity circle where the monitoring device is located, namely, a circle drawn by taking a signal generating unit of an AED emergency system connected with the monitoring device as a circle center and taking a distance between the signal intensity of the position where the monitoring device is located and the signal generating unit of the AED emergency system as a radius. The signal information comprises the acquired connection signal and the signal intensity corresponding to the current connection signal. The position ring may be a circular ring, that is, the difference between the radius of the inner ring and the radius of the outer ring of the position ring is greater than zero, and at this time, the signal intensity difference between the radius of the inner ring and the radius of the outer ring of the position ring is a preset first signal intensity difference.

The monitoring device further comprises a positioning device, the positioning device acquires the position of the monitoring device in real time to obtain positioning information, and the positioning information is sent to the AED emergency system in real time through the communication module.

The storage unit of the AED emergency system stores an isometric map of public places where the AED emergency system is located, the isometric map labeled with the location of each AED. The scheduling unit judges the accuracy of the current monitoring device position according to the position circle of the monitoring device, the positioning information and the equal proportion map, as shown in figure 1,

Firstly, a scheduling unit of the AED emergency system copies the proportional map to obtain a first position mark map, marks a position circle of a current monitoring device in the first position mark map according to the signal information, and obtains a complete first position mark map.

And secondly, the scheduling unit of the AED emergency system copies the proportional map to obtain a second position mark map, marks the position of the current monitoring device in the second position mark map according to the positioning information, and obtains a complete second position mark map.

The scheduling unit of the AED emergency system then performs a overlay fusion of the first location label and the second location label, i.e., overlays the first location label on the second location label or overlays the second location label on the first location label.

Finally, the scheduling unit of the AED emergency system determines whether the positioning information is placed in the position circle by comparing the position circle in the first position mark diagram and the positioning information in the second position mark diagram, thereby judging whether the acquired position of the current monitoring device is accurate. When the positioning information is placed in the position ring, the position of the current monitoring device is accurate; when the positioning information is not placed in the position circle, the position of the current monitoring device is inaccurate, the AED emergency system sends a command for re-acquiring signal information and positioning information to the monitoring device, and a dispatching unit of the AED emergency system re-judges the accuracy of the position of the current monitoring device according to the updated signal information and positioning information until the position of the current monitoring device is accurate.

The AED emergency system sends the current monitoring device accurate location to the travel device of the AED emergency unit, which transports the AED device to the current monitoring device accurate location (target emergency location).

The isometric map, the first position-marker map, and the second position-marker map are perspective views. And when the first position mark map and the second position mark map are subjected to coverage fusion, the accuracy of the coverage fusion is realized according to the comparison mark.

And the scheduling unit selects a target playing device according to the determined accurate position of the current monitoring device.

The storage unit stores a topography map of a public place where the AED emergency system is located, the topography map marks the locations of all playback devices at the place, and playback viewing location rank regions corresponding to different playback devices. The playing and viewing position grade area comprises a first-level viewing area corresponding to the optimal viewing position corresponding to each playing device and a second-level viewing area corresponding to the viewable position.

The scheduling unit marks the accurate position of the current monitoring device in the topographic map, and selects an optimal playing device and a visual playing device according to the playing device corresponding to the area where the position is located, wherein the optimal playing device and the visual playing device are target playing devices. The area where the current monitoring device is located is a playing device corresponding to the first-level viewing area and is the optimal playing device; the area where the current monitoring device is located is a playing device corresponding to the secondary viewing area, and the playing device is a viewable playing device.

The AED emergency system transmits an emergency plan to a target play device for display and/or play of the emergency plan and emergency videos in the emergency plan.

When the AED emergency system sends an emergency solution to the target playing device, the video segmentation unit of the AED emergency system segments the emergency video in the emergency solution and then sends the segmented emergency video to the target playing devices, so that segmented playing of the emergency video is realized, and the influence of clamping on the playing of the emergency video is avoided.

The topographical map is marked with the location of each AED emergency system in the public location, and the distance between each AED emergency system and the different playout devices.

The video segmentation unit segments the emergency video in the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system and then sends the emergency video to a plurality of target playing devices for playing, namely, the video segmentation unit determines the segmentation point of the emergency video after the segmentation point of the emergency video is determined according to the distance between the optimal playing device/visual playing device and the AED emergency system, which are positioned by the current monitoring device, and the distance between the optimal playing device/visual playing device and the AED emergency system is used for playing. Determining the segmentation point of the emergency video, namely determining the video time point of segmenting the emergency video.

The distance between the AED emergency systems corresponding to the signal generating units to which the current monitoring device is signally connected, referred to herein as the offset distance, may be the average distance between the best playout device/visual playout device and the AED emergency systems corresponding to the signal generating units to which the current monitoring device is signally connected.

The memory unit of the AED emergency system stores an offset lookup table that includes offset distance segments, each offset distance segment having an offset center marked therein. The offset center is the number of centers in the offset distance segment. The offset distance segmentation is obtained by segmenting and dividing the offset distance.

The first-aid video comprises time sequence segments, and a candidate division point is arranged between every two adjacent time sequence segments. Each candidate dividing point corresponds to an offset scale, and the candidate dividing point moves along with the movement of the offset scale.

And the video segmentation unit segments candidate segmentation points corresponding to the offset scale in the emergency video after adjusting the offset scale of the time sequence section according to the offset distance, so as to realize segmentation of the emergency video.

The time sequence segments in the emergency video can be 3 segments or more than 3 segments, namely, the emergency video is segmented to obtain 3 segments or more than 3 segments of video segments.

The video segmentation unit adjusts the offset scale of the time series segment according to the offset distance, as shown in fig. 2, specifically may be implemented by,

The video segmentation unit reads the distance between the optimal playing device/visual playing device at the position of the current monitoring device in the topographic map and the AED emergency system corresponding to the signal generating unit connected with the current monitoring device to obtain the current offset distance.

And the video segmentation unit selects an offset distance segment where the current offset distance is located in the offset comparison table according to the current offset distance, and acquires an offset center of the offset distance segment.

And the video segmentation unit makes a difference between the current offset distance and the offset center to obtain the offset scale moving distance.

And the video segmentation unit segments the emergency video by using candidate segmentation points corresponding to all the offset scales after adjusting all the offset scales in the emergency video according to the moving distance of the offset scales. When the moving distance of the offset scale is a negative number, the offset scale moves towards the direction of the video starting point, and the moving length is the absolute value of the moving distance of the offset scale; when the moving distance of the offset scale is positive, the offset scale moves towards the video end point direction, and the moving length is the moving distance of the offset scale.

The AED emergency system transmits and sorts the segmented emergency video according to the distance between the optimal playing device/visual playing device and the AED emergency system corresponding to the signal generating unit connected with the current monitoring device by signals, and then sends the segmented emergency video to different target playing devices for playing. The specific ordering mode may be that the best playing device/visible playing device nearest to the AED emergency system corresponding to the signal generating unit connected with the current monitoring device signal transmits according to the sequence of the first sectional video, the second sectional video and the third sectional video; the optimal playing device/visual playing device which is the second closest to the AED emergency system corresponding to the signal generating unit which is connected with the current monitoring device through signals transmits the second segmented video, the third segmented video and the first segmented video in sequence; the optimal playing device/visual playing device which is the third closest to the AED emergency system corresponding to the signal generating unit which is connected with the current monitoring device through signals is used for transmitting the third segmented video, the first segmented video and the second segmented video in sequence. When the optimal playing device/the visual playing device plays the emergency video, and the video is blocked due to the transmission speed, the AED emergency system plays each segmented video on different optimal playing devices/visual playing devices according to the time sequence, so that the influence on the emergency of patients due to low transmission speed is avoided, and the optimal rescue time is obtained for the patients.

The first aid treating method for the first aid system includes the following steps,

The monitoring device acquires body data, automatically switches connection signals according to the strength of signals of the AED emergency system in real time, connects the AED emergency system nearest to the monitoring device, and sends the body data to the AED emergency system in real time;

the signal generating unit of the AED emergency system sends out a communication signal, and the monitoring device is connected with the signal when entering the signal area, so that data transmission between the AED emergency system and the monitoring device is realized;

A scheme analysis unit of the AED emergency system judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment scheme;

the scheduling unit of the AED emergency system calls the playing device in the current occasion according to the position of the monitoring device;

the video segmentation unit of the AED emergency system segments the emergency video in the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system and then sends the segmented emergency video to a plurality of target playing devices for playing;

An AED emergency unit of the AED emergency system provides electrical defibrillation emergency to the patient in accordance with an emergency regimen.

An AED emergency system and a processing method are used for public places, an optimal playing device is selected according to the position of a monitoring device to display an emergency plan, an emergency basis is provided for emergency personnel, and an AED emergency unit is moved to the position of a patient according to the position of the monitoring device, so that the emergency personnel are prevented from searching the AED emergency unit, and the optimal time for emergency is delayed. In addition, the emergency video in the emergency scheme can be segmented and then sent to different optimal playing devices, so that the problem that the emergency is influenced due to the fact that playing is blocked due to the transmission speed is avoided.

The foregoing is a description of a preferred embodiment of the invention to assist those skilled in the art in more fully understanding the invention. These examples are merely illustrative and the present invention is not to be construed as being limited to the descriptions of these examples. It should be understood that, to those skilled in the art to which the present invention pertains, several simple deductions and changes can be made without departing from the inventive concept, and these should be considered as falling within the scope of the present invention.

Claims (10)

1. An emergency system comprising a monitoring device and a plurality of AED emergency systems,

The monitoring device is used for acquiring body data, automatically switching connection signals according to the strength of signals of the AED emergency system in real time, connecting the AED emergency system nearest to the monitoring device, and sending the body data to the AED emergency system in real time;

The AED emergency system comprises a signal generation unit, an AED emergency unit, a scheme analysis unit, a scheduling unit and a video segmentation unit, wherein the signal generation unit is used for sending out communication signals; the AED emergency unit implements an electrical defibrillation emergency for the patient; the scheme analysis unit judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment scheme; the scheduling unit calls a playing device in the current occasion according to the position of the monitoring device; the video segmentation unit segments the emergency video and sends the emergency video to a plurality of target playing devices for playing after adjusting the offset scale corresponding to the candidate segmentation point in the emergency video time sequence section in the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system.

2. The emergency system of claim 1, wherein the communication module of the monitoring device sends signal information to the AED emergency system in real time, and the dispatch unit of the AED emergency system determines the location circle of the monitoring device based on the signal information; the signal information comprises a connection signal and a signal intensity corresponding to the current connection signal;

The monitoring device also comprises a positioning device, wherein the positioning device acquires the position of the monitoring device in real time to obtain positioning information, and the positioning information is sent to the AED emergency system in real time through the communication module;

the storage unit of the AED emergency system stores an isometric map of public places where the AED emergency system is located, the isometric map labeled with the location of each AED.

3. The emergency system according to claim 2, wherein the scheduling unit determines the accuracy of the current monitoring device position based on the position circle, the positioning information, and the equal proportion map of the monitoring device,

Firstly, a scheduling unit of the AED emergency system copies the proportional map to obtain a first position mark map, marks a position circle of a current monitoring device in the first position mark map according to the signal information to obtain a complete first position mark map;

secondly, the scheduling unit of the AED emergency system copies the proportional map to obtain a second position mark map, marks the position of the current monitoring device in the second position mark map according to the positioning information, and obtains a complete second position mark map;

Then, a scheduling unit of the AED emergency system performs coverage fusion on the first position mark graph and the second position mark graph;

Finally, the scheduling unit of the AED emergency system determines whether the positioning information is placed in the position circle by comparing the position circle in the first position mark diagram and the positioning information in the second position mark diagram, thereby judging whether the acquired position of the current monitoring device is accurate.

4. An emergency system according to claim 1, wherein said storage unit stores a map of the public location where said AED emergency system is located, said map identifying the locations of all playback devices at that location, and playback viewing location rank regions for different playback devices; the playing and viewing position grade area comprises a first-level viewing area corresponding to the optimal viewing position corresponding to each playing device and a second-level viewing area corresponding to the viewable position.

5. The emergency system according to claim 4, wherein the scheduling unit selects a target playing device according to the determined position of the accurate current monitoring device, specifically, the scheduling unit marks the position of the accurate current monitoring device in the topographic map, and selects an optimal playing device and a visual playing device according to the playing device corresponding to the area where the position is located, wherein the optimal playing device and the visual playing device are the target playing device; the area where the current monitoring device is located is a playing device corresponding to the first-level viewing area and is the optimal playing device; the area where the current monitoring device is located is a playing device corresponding to the secondary viewing area, and the playing device is a viewable playing device.

6. The emergency system according to claim 1, wherein the video dividing unit determines the dividing point of the emergency video according to the distance between the optimal playing device/visual playing device where the current monitoring device is located and the AED emergency system corresponding to the signal generating unit which is in signal connection with the current monitoring device, and transmits and plays the emergency video according to the distance between the optimal playing device/visual playing device and the AED emergency system after dividing the emergency video; the distance between the best play device/visual play device where the current monitoring device is located and the AED emergency system corresponding to the signal generating unit to which the current monitoring device is signally connected is referred to as the offset distance.

7. An emergency system according to claim 6 wherein the topographical map is marked with the location of each AED emergency system in the public location and the distance between each AED emergency system and the different play sets;

The storage unit of the AED emergency system stores an offset comparison table, the offset comparison table comprises offset distance sections, each offset distance section is marked with an offset center, and the offset center is the center number in the offset distance section;

the first-aid video comprises time sequence segments, a candidate dividing point is arranged between every two adjacent time sequence segments, each candidate dividing point is correspondingly provided with an offset scale, and the candidate dividing point moves along with the movement of the offset scale;

and the video segmentation unit segments candidate segmentation points corresponding to the offset scale in the emergency video after adjusting the offset scale of the time sequence section according to the offset distance, so as to realize segmentation of the emergency video.

8. The emergency system according to claim 7, wherein the video segmentation unit adjusts the offset scale of the time sequence segment according to the offset distance, and segments the candidate segmentation points corresponding to the offset scale in the emergency video by,

The video segmentation unit reads the distance between the optimal playing device/visual playing device at the position of the current monitoring device in the topographic map and the AED emergency system corresponding to the signal generating unit connected with the current monitoring device to obtain the current offset distance;

The video segmentation unit selects an offset distance segment where the current offset distance is located in an offset comparison table according to the current offset distance, and acquires an offset center of the offset distance segment;

The video segmentation unit makes a difference between the current offset distance and the offset center to obtain an offset scale moving distance;

And the video segmentation unit segments the emergency video by using candidate segmentation points corresponding to all the offset scales after adjusting all the offset scales in the emergency video according to the moving distance of the offset scales.

9. The emergency system of claim 1, wherein the AED emergency system transmits the segmented emergency video to different target playback devices for playback after sequencing according to the distance between the optimal playback device/visual playback device and the AED emergency system corresponding to the signal generating unit to which the current monitoring device is signally connected.

10. A method for emergency treatment, applied to the emergency system as claimed in any one of claims 1 to 9, characterized in that,

The monitoring device acquires body data, automatically switches connection signals according to the strength of signals of the AED emergency system in real time, connects the AED emergency system nearest to the monitoring device, and sends the body data to the AED emergency system in real time;

the signal generating unit of the AED emergency system sends out a communication signal, and the monitoring device is connected with the signal when entering the signal area, so that data transmission between the AED emergency system and the monitoring device is realized;

A scheme analysis unit of the AED emergency system judges whether emergency treatment is needed according to the body data, and selects a corresponding emergency treatment scheme;

the scheduling unit of the AED emergency system calls the playing device in the current occasion according to the position of the monitoring device;

the video segmentation unit of the AED emergency system segments the emergency video in the emergency scheme according to the offset distance between the target playing device and the corresponding AED emergency system and then sends the segmented emergency video to a plurality of target playing devices for playing;

An AED emergency unit of the AED emergency system provides electrical defibrillation emergency to the patient in accordance with an emergency regimen.