CN114333230B - Vehicle collision triggering first-aid system and method - Google Patents

Abstract

The invention discloses a vehicle collision triggering emergency system and a method, wherein the vehicle collision triggering emergency system comprises the following components: the system comprises a server, at least one vehicle-mounted terminal and at least one first-aid terminal, wherein the server is respectively connected with each vehicle-mounted terminal and each first-aid terminal; the vehicle-mounted terminal comprises: the device comprises a first control module, a sensing module, a first positioning module, a first camera shooting mechanism, a first storage module and a first communication module; the server comprises a second control module, a second communication module and a database module, wherein the second control module is respectively connected with the second communication module and the database module; the second control module is connected with each vehicle-mounted terminal and each first-aid terminal through a second communication module; the first aid terminal comprises a third control module, a third communication module, a third positioning module, a third display module and a third input module. The vehicle collision triggering emergency system and method provided by the invention can automatically send out an emergency road rescue request when a serious accident occurs.

Description

Vehicle collision triggering first-aid system and method

Technical Field

The invention belongs to the technical field of electronic information, relates to an emergency system, and particularly relates to a vehicle collision triggering emergency system and method.

Background

With the rapid development of the automotive industry in China, automobiles not only enter thousands of households, but also are widely applied to the transportation industry, agriculture and other industries. In the road running of the vehicle, traffic accidents inevitably occur, and particularly when serious traffic accidents occur, vehicle-mounted personnel are seriously injured in the accidents. The current common disposal mode is that a distress person (a fellow person or a hot person) dials 120 to tell 120 an accident site to wait for the rescue of 120 vehicles. This approach has the following disadvantages:

(1) Due to the actual condition of the road (e.g., road congestion, or 120 being far from the incident, e.g., an accident occurring on a highway), it takes a certain time for 120 to arrive at the scene. In waiting, wounded persons often cannot be treated in time, so that the optimal emergency treatment time is delayed, and serious consequences are caused.

(2) When the distress call people report the accident place, the accident place cannot be accurately described due to the limitation of communication tools, so that 120 is irradiated to delay arrival.

In view of this, there is an urgent need to design a new vehicle rescue system so as to overcome at least some of the above-mentioned drawbacks of the existing vehicle rescue systems.

Disclosure of Invention

The invention provides a vehicle collision triggering emergency system and a method, which can automatically send out an emergency road rescue request when a serious accident occurs.

In order to solve the technical problems, according to one aspect of the present invention, the following technical scheme is adopted:

A vehicle crash triggered emergency system, the vehicle crash triggered emergency system comprising: the system comprises a server, at least one vehicle-mounted terminal and at least one first-aid terminal, wherein the server is respectively connected with each vehicle-mounted terminal and each first-aid terminal;

The vehicle-mounted terminal comprises: the device comprises a first control module, a sensing module, a first positioning module, a first camera mechanism, a first audio input module, a first audio output module, a first storage module and a first communication module, wherein the first control module is respectively connected with the sensing module, the first positioning module, the first camera mechanism, the first audio input module, the first audio output module, the first storage module and the first communication module;

The first positioning module is used for acquiring the position data of the vehicle-mounted terminal and sending the acquired position data to the first control module;

the sensing module is used for sending first alarm information to the first control module after detecting the occurrence of a dangerous event and the dangerous degree reaches a set threshold value, wherein the first alarm information comprises dangerous degree data;

The first camera shooting mechanism is used for acquiring an image of a vehicle setting area and sending the acquired image to the first control module, and the first control module stores the setting image in the first storage module;

The first control module is used for receiving the alarm information sent by the sensing module, and sending second alarm information to the server through the first communication module, wherein the second alarm information comprises position data and danger degree data of the vehicle-mounted terminal and a set image acquired by the first camera shooting mechanism;

The server includes: the system comprises a second control module, a second communication module and a database module, wherein the second control module is respectively connected with the second communication module and the database module; the second control module is connected with each vehicle-mounted terminal and each first-aid terminal through a second communication module;

After receiving the alarm information of the vehicle-mounted terminal, the second control module searches for an emergency terminal which is around the position data and matched with the corresponding risk degree data through the position data and the risk degree data in the second alarm information, and sends rescue information to a specific emergency terminal, wherein the rescue information comprises the position data, the risk degree data and a set image acquired by a corresponding first camera shooting mechanism of the corresponding vehicle-mounted terminal;

The emergency terminal includes: the system comprises a third control module, a third communication module, a third positioning module, a third audio input module, a third audio output module, a third display module and a third input module, wherein the third control module is respectively connected with the third communication module, the third positioning module, the third audio input module, the third audio output module, the third display module and the third input module;

the third positioning module is used for acquiring the position data of the emergency terminal and sending the acquired data to the third control module, and the third control module sends the acquired position data to the server;

The third control module receives rescue information from the server through the third communication module, displays position data and danger degree data corresponding to the vehicle-mounted terminal and setting images acquired corresponding to the first camera mechanism through the third display module, and selects whether rescue can be added through the third input module.

As one embodiment of the present invention, the sensing module is disposed on a vehicle, and is used for sensing whether the airbag is ejected; and after the airbag pops up, sending first alarm information to the first control module.

As one embodiment of the present invention, the sensing module includes a collision sensor for sensing collision information of a set position of the vehicle.

As one embodiment of the present invention, the sensing module includes an acceleration sensor for sensing real-time acceleration information of the vehicle.

As one embodiment of the present invention, the vehicle-mounted terminal further includes a vehicle personnel feedback module, where the vehicle personnel feedback module is configured to receive feedback information of personnel in the vehicle; the vehicle personnel feedback module sends feedback information to the first control module.

As one embodiment of the present invention, a vehicle is provided with at least two in-vehicle terminals provided at the front and rear of the vehicle, respectively; the front vehicle-mounted terminal is used as a main vehicle-mounted terminal, and the rear vehicle-mounted terminal is used as a redundant vehicle-mounted terminal; and the redundant vehicle-mounted terminal automatically starts to work when the main vehicle-mounted terminal is detected to be incapable of working.

As an embodiment of the present invention, the server includes: the self-learning module belongs to an emergency first aid auxiliary module, and selects to intervene or not intervene the vehicle-mounted terminal to send an alarm request according to system setting; according to the dangerous degree data contained in the second warning information sent by the vehicle-mounted terminal and the set image acquired by the first camera shooting mechanism, combining a historical data model to perform image algorithm identification, and automatically evaluating the injury degree of personnel in the vehicle and the damage degree of the vehicle; selecting whether a rescue request needs to be initiated according to system setting; and effectively intercepting a false alarm request sent by the vehicle-mounted terminal.

As an embodiment of the present invention, the server includes: the model construction module is used for constructing a rescue mathematical model according to the set template data set, and constructing the rescue mathematical model by taking the data sensed by the sensing module as independent variables and taking whether rescue is needed as a target value.

According to another aspect of the invention, the following technical scheme is adopted: a vehicle crash triggering emergency method, the emergency method comprising:

After the sensing module detects that a dangerous event occurs and the dangerous degree reaches a set threshold value, sending first alarm information to the first control module, wherein the first alarm information comprises dangerous degree data; the first control module sends alarm information to the server;

After receiving the alarm information of the vehicle-mounted terminal, the second control module of the server searches for the emergency terminal which is around the position data and matched with the corresponding risk degree data through the position data and the risk degree data in the second alarm information, and sends rescue information to the specific emergency terminal.

The first-aid method comprises the following steps:

step S1, after a traffic accident occurs to a vehicle, a sensing module detects that the current accident is seriously endangered or personal injury of passengers is caused, and the sensing module sends an alarm signal to a first control module;

S2, after receiving an alarm signal sent by a sensor, the first control module sends an alarm event to a driving computer software platform;

Step S3, the driving computer software receives the alarm event sent by the first control module, judges that the event belongs to an emergency event, and automatically starts the vehicle-mounted emergency software;

S4, after the vehicle-mounted emergency software is started, at least one of the following processes is performed by using the built-in first communication module: reporting the geographic position of accident occurrence to a platform through a built-in first positioning module, calling nearby volunteers trained in emergency through the platform to participate in rescue, and checking nearby emergency stations and emergency equipment through the platform;

s5, after the server receives the accident help request, medical staff starts a remote video function by using the mobile terminal of the server and calls and connects a video system in the vehicle;

step S6, when the wounded person or other rescuers accept the video request, the online medical service provides remote first-aid guidance through the video function;

step S7, searching volunteers nearby the accident site by the platform, and calling the volunteers to arrive at the accident site to participate in rescue;

And S8, the platform transmits the geographical position, the image-text and the audio-video data of the accident scene to the rescue platform of the area through the set passage, and the rescue platform discharges the ambulance to the accident scene to participate in rescue.

The invention has the beneficial effects that: the vehicle collision triggering emergency system and method provided by the invention can automatically send out an emergency road rescue request when a serious accident occurs.

Drawings

Fig. 1 is a schematic diagram of a vehicle crash triggering emergency system according to an embodiment of the invention.

Fig. 2 is a schematic diagram of a workflow of a vehicle crash triggering emergency system according to an embodiment of the invention.

Fig. 3 is a flowchart of a method for triggering an emergency treatment for a vehicle collision according to an embodiment of the invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

For a further understanding of the present invention, preferred embodiments of the invention are described below in conjunction with the examples, but it should be understood that these descriptions are merely intended to illustrate further features and advantages of the invention, and are not limiting of the claims of the invention.

The description of this section is intended to be illustrative of only a few exemplary embodiments and the invention is not to be limited in scope by the description of the embodiments. It is also within the scope of the description and claims of the invention to interchange some of the technical features of the embodiments with other technical features of the same or similar prior art.

The description of the steps in the various embodiments in the specification is merely for convenience of description, and the implementation of the present application is not limited by the order in which the steps are implemented. "connected" in the specification includes both direct and indirect connections.

The invention discloses a vehicle collision triggering emergency system, wherein fig. 1 is a schematic diagram of the composition of the vehicle collision triggering emergency system in an embodiment of the invention, and fig. 2 is a schematic diagram of the workflow of the vehicle collision triggering emergency system in an embodiment of the invention; referring to fig. 1 and 2, the vehicle collision triggering emergency system includes: the system comprises a server 1, at least one vehicle-mounted terminal 2 and at least one first-aid terminal 3, wherein the server 1 is respectively connected with each vehicle-mounted terminal 2 and each first-aid terminal 3.

The in-vehicle terminal 2 includes: the device comprises a first control module 201, a sensing module 202, a first positioning module 203, a first camera mechanism 204, a first audio input module 205, a first audio output module 206, a first storage module 207 and a first communication module 208, wherein the first control module 201 is respectively connected with the sensing module 202, the first positioning module 203, the first camera mechanism 204, the first audio input module 205, the first audio output module 206, the first storage module 207 and the first communication module 208.

The first positioning module 203 is configured to acquire position data of the vehicle-mounted terminal 2, and send the acquired position data to the first control module 201. The sensing module 202 is configured to send first alarm information to the first control module 201 after detecting that a dangerous event occurs and the dangerous level reaches a set threshold, where the first alarm information includes dangerous level data.

The first image capturing mechanism 204 is configured to acquire an image of a vehicle setting area, and send the acquired image to the first control module 201, and the first control module 201 stores the setting image in the first storage module 207. The first image capturing mechanism 204 may be provided inside the vehicle (so as to acquire audio and video information of the inside of the vehicle), or/and may be provided outside the vehicle (so as to acquire audio and video information of the outside of the vehicle).

The first audio input module 205 is configured to obtain setting audio information; the first audio input module 205 may be a microphone. The first audio output module 206 is configured to output the set audio information, and the first audio output module 206 may be a speaker.

The first control module 201 is configured to receive the alarm information sent by the sensing module 202, and send second alarm information to the server 1 through the first communication module 208, where the second alarm information includes the position data and the risk degree data of the vehicle-mounted terminal 2, and the set image acquired by the first camera 204; and may further include audio information acquired by the first audio input module 205.

The vehicle is provided with at least two vehicle-mounted terminals which are respectively arranged at the front part and the rear part of the vehicle; the front vehicle-mounted terminal is used as a main vehicle-mounted terminal, and the rear vehicle-mounted terminal is used as a redundant vehicle-mounted terminal; and the redundant vehicle-mounted terminal automatically starts to work when the main vehicle-mounted terminal is detected to be incapable of working.

In one embodiment of the present invention, the sensor module 202 is disposed in the vehicle (e.g., may be disposed near the steering wheel of the vehicle, so as to sense the information after the airbag is ejected) for sensing whether the airbag is ejected; and after the airbag pops up, sending first alarm information to the first control module. The sensing module 202 may include a pressure sensor or a vibration sensor. In an embodiment, the sensing module includes a crash sensor for sensing crash information of a set position of the vehicle. In addition, the sensing module may further include an acceleration sensor for sensing real-time acceleration information of the vehicle; the first control module 201 can obtain acceleration change data of the vehicle, so as to be convenient for knowing the dangerous degree of the vehicle by combining the working conditions of the accelerator and the brake of the vehicle.

In an embodiment of the present invention, the vehicle-mounted terminal 2 further includes a vehicle personnel feedback module 209, where the vehicle personnel feedback module 209 is configured to receive feedback information of personnel in the vehicle; the vehicle occupant feedback module 209 sends feedback information to the first control module 201. In one use scenario, the server may query the vehicle terminal 2 for an incident condition; the personnel in the vehicle can input setting information through the vehicle personnel feedback module 209 according to the occurrence condition and feed back the setting information to the server 1; if the server 1 receives no feedback within the set time, it is considered that the accident hazard is high. If the feedback received by the server 1 corresponds to the feedback obtained by the analysis, the feedback may be selected to be trusted.

The server 1 includes: the system comprises a second control module 101, a second communication module 102 and a database module 103, wherein the second control module 101 is respectively connected with the second communication module 102 and the database module 103; the second control module 101 is connected to each of the vehicle-mounted terminals 2 and each of the emergency terminals 3 through the second communication module 102.

After receiving the warning information of the vehicle-mounted terminal 2, the second control module 101 searches for an emergency terminal that matches with the corresponding risk level data around the position data through the position data and the risk level data in the second warning information, and sends rescue information to a specific emergency terminal, where the rescue information includes the position data and the risk level data corresponding to the vehicle-mounted terminal 2 and the set image (may also include the audio information acquired by the first audio input module 205) acquired by the corresponding first camera 204.

In an embodiment of the present invention, the server 1 includes a self-learning module 104, and the self-learning module 104 is configured to determine the degree of damage according to the data and the historical data sensed by the sensing module, and determine whether rescue is required. The self-learning module 104 belongs to an emergency first aid auxiliary module, and selects intervention or no intervention to send an alarm request from the vehicle-mounted terminal according to system setting; according to the dangerous degree data contained in the second warning information sent by the vehicle-mounted terminal and the set image acquired by the first camera shooting mechanism, combining a historical data model to perform image algorithm identification, and automatically evaluating the injury degree of personnel in the vehicle and the damage degree of the vehicle; selecting whether a rescue request needs to be initiated according to system setting; and effectively intercepting a false alarm request sent by the vehicle-mounted terminal.

The server 1 may further include a model building module 105, where the model building module 105 is configured to build a rescue mathematical model according to the set template data set, and build the rescue mathematical model with the data sensed by the sensing module 202 as an independent variable and whether rescue is required as a target value.

The emergency terminal 3 includes: the third control module 301 is connected to the third communication module 302, the third positioning module 303, the third audio input module 304, the third audio output module 305, the third display module 306 and the third input module 307, and the third control module 301 is connected to the third communication module 302, the third positioning module 303, the third audio input module 304, the third audio output module 305, the third display module 306 and the third input module 307.

The third positioning module 303 is configured to obtain position data of an emergency terminal, and send the obtained data to the third control module 301, and the third control module 301 sends the obtained position data to the server 1.

The third control module 301 receives the rescue information from the server 1 through the third communication module 302, displays the position data and the risk level data corresponding to the vehicle-mounted terminal and the setting image obtained corresponding to the first camera 204 through the third display module 306, and selects whether to join in rescue through the third input module.

Meanwhile, in order to implement the video call between the emergency terminal 3 and the in-vehicle terminal 2, the emergency terminal 3 may further include a third camera 308 for acquiring a video signal.

In addition, the vehicle collision triggering emergency system can also comprise a telephone platform, comprising a plurality of fixed telephone agents, and can provide voice service.

The invention further discloses a vehicle collision triggering emergency method, which comprises the following steps: after the sensing module detects that a dangerous event occurs and the dangerous degree reaches a set threshold value, sending first alarm information to the first control module, wherein the first alarm information comprises dangerous degree data; the first control module sends alarm information to the server; after receiving the alarm information of the vehicle-mounted terminal, the second control module of the server searches for the emergency terminal which is around the position data and matched with the corresponding risk degree data through the position data and the risk degree data in the second alarm information, and sends rescue information to the specific emergency terminal.

FIG. 3 is a flow chart of a method for triggering an emergency for a vehicle collision according to an embodiment of the invention; referring to fig. 3, the first-aid method includes the following steps:

Step S1, after a traffic accident occurs to a vehicle, for example, the airbag pops up due to the collision of the vehicle, the sensing module detects that the current accident is seriously endangered or personal injury of passengers is caused, and the sensing module sends an alarm signal to the first control module;

S2, after receiving an alarm signal sent by a sensor, the first control module sends an alarm event to a driving computer software platform;

Step S3, the driving computer software receives the alarm event sent by the first control module, judges that the event belongs to an emergency event, and automatically starts the vehicle-mounted emergency software;

S4, after the vehicle-mounted emergency software is started, at least one of the following processes is performed by using the built-in first communication module: reporting the geographic position of accident occurrence to a platform through a built-in first positioning module, calling nearby volunteers trained in emergency through the platform to participate in rescue, and checking nearby emergency stations and emergency equipment through the platform;

s5, after the server receives the accident help request, the professional medical staff starts a remote video function by using the mobile terminal of the server and calls and connects a video system in the vehicle;

step S6, when the wounded person or other rescuers accept the video request, the online medical service provides remote first-aid guidance through the video function;

step S7, searching volunteers nearby the accident site by the platform, and calling the volunteers to arrive at the accident site to participate in rescue;

And S8, the platform transmits the geographical position, the image-text and the audio-video data of the accident scene to the rescue platform of the area through the set passage, and the rescue platform discharges the ambulance to the accident scene to participate in rescue.

In addition, the method may further include: the redundant vehicle-mounted terminal sends a request to the main vehicle-mounted terminal, and if the main vehicle-mounted terminal replies the request, the main vehicle-mounted terminal is considered to work normally; if the request is not received, a connection is established to the server, and setting data is sent to the server.

In summary, the system and method for triggering emergency treatment by vehicle collision can automatically send out an emergency road rescue request when serious accidents happen.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware; for example, an Application Specific Integrated Circuit (ASIC), a general purpose computer, or any other similar hardware device may be employed. In some embodiments, the software program of the present application may be executed by a processor to implement the above steps or functions. Likewise, the software program of the present application (including the related data structures) may be stored in a computer-readable recording medium; such as RAM memory, magnetic or optical drives or diskettes, and the like. In addition, some steps or functions of the present application may be implemented in hardware; for example, as circuitry that cooperates with the processor to perform various steps or functions.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The description and applications of the present invention herein are illustrative and are not intended to limit the scope of the invention to the embodiments described above. Effects or advantages referred to in the embodiments may not be embodied in the embodiments due to interference of various factors, and description of the effects or advantages is not intended to limit the embodiments. Variations and modifications of the embodiments disclosed herein are possible, and alternatives and equivalents of the various components of the embodiments are known to those of ordinary skill in the art. It will be clear to those skilled in the art that the present invention may be embodied in other forms, structures, arrangements, proportions, and with other assemblies, materials, and components, without departing from the spirit or essential characteristics thereof. Other variations and modifications of the embodiments disclosed herein may be made without departing from the scope and spirit of the invention.

Claims (9)

1. A vehicle crash triggered emergency system, the vehicle crash triggered emergency system comprising: the system comprises a server, at least one vehicle-mounted terminal and at least one first-aid terminal, wherein the server is respectively connected with each vehicle-mounted terminal and each first-aid terminal;

The vehicle-mounted terminal comprises: the device comprises a first control module, a sensing module, a first positioning module, a first camera mechanism, a first audio input module, a first audio output module, a first storage module and a first communication module, wherein the first control module is respectively connected with the sensing module, the first positioning module, the first camera mechanism, the first audio input module, the first audio output module, the first storage module and the first communication module;

The first positioning module is used for acquiring the position data of the vehicle-mounted terminal and sending the acquired position data to the first control module;

the sensing module is used for sending first alarm information to the first control module after detecting the occurrence of a dangerous event and the dangerous degree reaches a set threshold value, wherein the first alarm information comprises dangerous degree data;

The first camera shooting mechanism is used for acquiring an image of a vehicle setting area and sending the acquired image to the first control module, and the first control module stores the setting image in the first storage module;

The first control module is used for receiving the alarm information sent by the sensing module, and sending second alarm information to the server through the first communication module, wherein the second alarm information comprises position data and danger degree data of the vehicle-mounted terminal and a set image acquired by the first camera shooting mechanism;

The server includes: the system comprises a second control module, a second communication module and a database module, wherein the second control module is respectively connected with the second communication module and the database module; the second control module is connected with each vehicle-mounted terminal and each first-aid terminal through a second communication module;

After receiving the alarm information of the vehicle-mounted terminal, the second control module searches for an emergency terminal which is around the position data and matched with the corresponding risk degree data through the position data and the risk degree data in the second alarm information, and sends rescue information to a specific emergency terminal, wherein the rescue information comprises the position data, the risk degree data and a set image acquired by a corresponding first camera shooting mechanism of the corresponding vehicle-mounted terminal;

The emergency terminal includes: the system comprises a third control module, a third communication module, a third positioning module, a third audio input module, a third audio output module, a third display module and a third input module, wherein the third control module is respectively connected with the third communication module, the third positioning module, the third audio input module, the third audio output module, the third display module and the third input module;

the third positioning module is used for acquiring the position data of the emergency terminal and sending the acquired data to the third control module, and the third control module sends the acquired position data to the server;

The third control module receives rescue information from the server through the third communication module, displays position data and danger degree data corresponding to the vehicle-mounted terminal and setting images acquired corresponding to the first camera mechanism through the third display module, and selects whether rescue can be added through the third input module.

2. The vehicle crash triggered emergency system of claim 1, wherein:

the sensing module is arranged on the vehicle and used for sensing whether the safety airbag pops up or not; and after the airbag pops up, sending first alarm information to the first control module.

3. The vehicle crash triggered emergency system of claim 1, wherein:

The sensing module comprises a collision sensor for sensing collision information of a set position of the vehicle.

4. The vehicle crash triggered emergency system of claim 1, wherein:

the sensing module comprises an acceleration sensor and is used for sensing real-time acceleration information of the vehicle.

5. The vehicle crash triggered emergency system of claim 1, wherein:

the vehicle-mounted terminal further comprises a vehicle personnel feedback module, wherein the vehicle personnel feedback module is used for receiving feedback information of personnel in a vehicle; the vehicle personnel feedback module sends feedback information to the first control module.

6. The vehicle crash triggered emergency system of claim 1, wherein:

the vehicle is provided with at least two vehicle-mounted terminals which are respectively arranged at the front part and the rear part of the vehicle; the front vehicle-mounted terminal is used as a main vehicle-mounted terminal, and the rear vehicle-mounted terminal is used as a redundant vehicle-mounted terminal; and the redundant vehicle-mounted terminal automatically starts to work when the main vehicle-mounted terminal is detected to be incapable of working.

7. The vehicle crash triggered emergency system of claim 1, wherein:

The server includes: the self-learning module belongs to an emergency first aid auxiliary module, and selects to intervene or not intervene the vehicle-mounted terminal to send an alarm request according to system setting; according to the dangerous degree data contained in the second warning information sent by the vehicle-mounted terminal and the set image acquired by the first camera shooting mechanism, combining a historical data model to perform image algorithm identification, and automatically evaluating the injury degree of personnel in the vehicle and the damage degree of the vehicle; selecting whether a rescue request needs to be initiated according to system setting; and effectively intercepting a false alarm request sent by the vehicle-mounted terminal.

8. The vehicle crash triggered emergency system of claim 1, wherein:

The server includes: the model building module belongs to an emergency first aid auxiliary module and is used for building a rescue mathematical model according to a set template data set, and building the rescue mathematical model by taking data sensed by the sensing module as independent variables and whether rescue is needed as a target value.

9. A vehicle crash triggering emergency method, the emergency method comprising:

After the sensing module detects that a dangerous event occurs and the dangerous degree reaches a set threshold value, sending first alarm information to the first control module, wherein the first alarm information comprises dangerous degree data; the first control module sends alarm information to the server;

after receiving the alarm information of the vehicle-mounted terminal, the second control module of the server searches for an emergency terminal which is around the position data and matched with the corresponding risk degree data through the position data and the risk degree data in the second alarm information, and sends rescue information to the specific emergency terminal;

The first-aid method comprises the following steps:

step S1, after a traffic accident occurs to a vehicle, a sensing module detects that the current accident is seriously endangered or personal injury of passengers is caused, and the sensing module sends an alarm signal to a first control module;

S2, after receiving an alarm signal sent by a sensor, the first control module sends an alarm event to a driving computer software platform;

Step S3, the driving computer software receives the alarm event sent by the first control module, judges that the event belongs to an emergency event, and automatically starts the vehicle-mounted emergency software;

S4, after the vehicle-mounted emergency software is started, at least one of the following processes is performed by using the built-in first communication module: reporting the geographic position of accident occurrence to a platform through a built-in first positioning module, calling nearby volunteers trained in emergency through the platform to participate in rescue, and checking nearby emergency stations and emergency equipment through the platform;

s5, after the server receives the accident help request, medical staff starts a remote video function by using the mobile terminal of the server and calls and connects a video system in the vehicle;

step S6, when the wounded person or other rescuers accept the video request, the online medical service provides remote first-aid guidance through the video function;

step S7, searching volunteers nearby the accident site by the platform, and calling the volunteers to arrive at the accident site to participate in rescue;

And S8, the platform transmits the geographical position, the image-text and the audio-video data of the accident scene to the rescue platform of the corresponding area through the set passage, and the rescue platform discharges the ambulance to the accident scene to participate in rescue.