CN115830823A - Outdoor rescue method and system - Google Patents

Abstract

The invention discloses an outdoor rescue method and an outdoor rescue system, wherein the method comprises the following steps: receiving a rescue request signal of a person seeking help; positioning the person seeking help according to the rescue request signal, and finding out nearby outdoor adventure persons; evaluating the risk condition of the rescue environment, and when the rescue environment has no potential safety hazard, synchronously starting professional rescue and mutual assistance rescue, and respectively informing professional rescuers and nearby outdoor adventure personnel to rescue; when potential safety hazards exist in the rescue environment, professional rescue is started, and professional rescuers are informed to rescue. By adopting the technical scheme of the invention, the outdoor rescue efficiency can be improved.

Description

Outdoor rescue method and system

Technical Field

The invention relates to the field of outdoor rescue, in particular to an outdoor rescue method and an outdoor rescue system.

Background

The outdoor exploration refers to a travel mode with exploration properties or exploration experience properties by taking a field natural environment as a place, and is deeply loved by the young due to certain irritation and unknown. The destination of outdoor exploration is often located in suburbs, mountain areas, deserts and other places which are far away from cities and have rare smoke and danger, and huge potential safety hazards exist while satisfying senses such as stimulation and tension are brought to explorators. For example, in the outdoor exploration process, natural disasters such as earthquakes and debris flows are encountered, or the outdoor exploration process encounters various disorientation road conditions and further mistakenly enters a dangerous situation with dangerous terrain, so tragedies such as falling down a cliff, rolling down or falling into water are caused.

The outdoor rescue scheme in the prior art usually calls for help and waits for professional rescue after an outdoor adventure is in danger. The rescue scheme in the prior art easily ignores the rescue force of surrounding adjacent people, so that the rescue is not timely, and the gold rescue time is missed.

Disclosure of Invention

The invention aims to solve the technical problem that an outdoor rescue scheme in the prior art is not timely in rescue, and provides a timely rescue outdoor rescue method and a timely rescue system.

The embodiment of the invention provides an outdoor rescue method, which comprises the following steps:

receiving a rescue request signal of a rescuer;

positioning the person seeking help according to the rescue request signal, and finding out nearby outdoor adventure persons;

the risk condition of the rescue environment is evaluated,

when the rescue environment has no potential safety hazard, professional rescue and mutual assistance rescue are started synchronously, and professional rescuers and nearby outdoor adventure personnel are informed to carry out rescue respectively;

when potential safety hazards exist in the rescue environment, professional rescue is started, and professional rescuers are informed to rescue.

In the embodiment of the invention, when potential safety hazards exist in the rescue environment, the risk condition is pushed to nearby outdoor adventure personnel for early warning.

In the embodiment of the invention, after the mutual help rescue is started, the rescue ability evaluation is further carried out on nearby outdoor expedition personnel, if the nearby outdoor expedition personnel pass the rescue ability evaluation, the position and the rescue path of the person seeking help are sent to the nearby outdoor expedition personnel, and if not, the position and the rescue path are not sent.

In the embodiment of the invention, after the mutual assistance rescue is started and before the nearby outdoor adventure personnel is informed, the method further comprises the following steps:

and screening the outdoor exploration personnel informing the participation of rescue according to the difficulty of the nearby outdoor exploration personnel reaching the help seeker.

In the embodiment of the invention, when the distance between the rescue-involved person and the help seeker is smaller than the set range, confirmation information is sent to the rescue-involved person to confirm whether the help seeker is found.

The embodiment of the invention also provides an outdoor rescue system, which comprises a cloud platform and a plurality of mobile terminals in communication connection with the cloud platform,

the mobile terminal is used for sending a rescue request signal by a person seeking help;

the cloud platform is used for receiving a rescue request signal of a rescuer, positioning the rescuer according to the rescue request signal and finding out nearby outdoor exploration personnel using the mobile terminal;

the cloud platform further assesses the risk profile of the rescue environment,

when the rescue environment has no potential safety hazard, the cloud platform synchronously starts professional rescue and mutual assistance rescue, and notifies professional rescuers and nearby outdoor adventure persons to carry out rescue respectively;

when potential safety hazards exist in the rescue environment, the cloud platform starts professional rescue and informs professional rescuers of rescuing.

In the embodiment of the invention, when the rescue environment has potential safety hazards, the cloud platform pushes the risk condition to the mobile terminal of the nearby outdoor adventure to perform early warning.

In the embodiment of the invention, after the mutual help rescue is started, the cloud platform further evaluates the rescue ability of nearby outdoor expedition personnel, if the nearby outdoor expedition personnel pass the rescue ability evaluation, the position and the rescue path of the person seeking help are sent to the nearby outdoor expedition personnel, and if not, the position and the rescue path are not sent.

In the embodiment of the invention, the cloud platform also screens the outdoor exploration personnel notifying the participation of rescue according to the difficulty of the nearby outdoor exploration personnel reaching the help seeker.

In the embodiment of the invention, when the distance between the rescue participated personnel and the help seeker is less than the set range, the cloud platform sends confirmation information to the rescue participated personnel to confirm whether the help seeker is found.

Compared with the prior art, the outdoor rescue method and the system adopt the cloud platform and the plurality of mobile terminals, when the cloud platform receives a rescue request signal sent by a rescuer through the mobile terminals, the rescuer is positioned according to the rescue request signal, nearby outdoor expedition personnel are found out, the risk condition of the rescue environment is evaluated, and when the rescue environment has no potential safety hazard, professional rescue and mutual help rescue are synchronously started, and the professional rescuers and the nearby outdoor expedition personnel are respectively informed to carry out rescue; when potential safety hazards exist in the rescue environment, professional rescue is started, professional rescuers are informed to rescue, all surrounding rescue forces can be obtained, the rescue effect of adjacent persons is exerted to the maximum, and a rescue solution is provided for outdoor victims in multiple dimensions, so that the survival rate of outdoor victims is improved.

Drawings

Fig. 1 is a schematic structural diagram of an outdoor rescue system according to an embodiment of the present invention.

Fig. 2 is a flowchart of an outdoor rescue method according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1, in an embodiment of the present invention, an outdoor rescue system is provided, which includes a cloud platform 10 and a plurality of mobile terminals 20 communicating with and connected to the cloud platform 10.

The mobile terminal 20 may be equipped to each outdoor adventure person, and is configured to send a rescue request signal when the outdoor adventure person is in a dangerous situation during outdoor adventure. After receiving the rescue request signal, the cloud platform 10 locates the help seeker according to the rescue request signal, finds other nearby outdoor adventure persons using the mobile terminal 20, and informs the persons to come for rescue, so that the help seeker can be rescued quickly and timely.

It should be noted that the mobile terminal 20 may be a mobile phone or an intelligent wearable device equipped with an APP in communication connection with the cloud platform 10, and has a satellite positioning function, so that outdoor exploration personnel using the mobile terminal 20 can perform positioning conveniently, the positioning function may be GPS positioning or Beidou positioning, which is not limited in the present invention.

When the mobile terminal 20 is an intelligent wearable device, the intelligent wearable device triggers an automatic distress call when monitoring that data such as vital signs, three-dimensional motion states, environmental states and the like of outdoor adventure persons are abnormal (such as sudden elevation drop, instantaneous temperature change, suddenly accelerated heart rate and abnormal acceleration). The cloud platform 10 obtains the danger state of the outdoor adventure through rapid data analysis and safety confirmation response (for example, if the wearable end device does not respond, the wearable end device is directly determined to be in the danger state), and then starts a rescue process.

As shown in fig. 2, after the cloud platform 10 receives the rescue request signal of the rescuer, the rescue process includes steps S1 to S4, which are described below.

Step S1: and positioning the help seeker according to the rescue request signal, and finding out nearby outdoor expedition personnel using the mobile terminal.

Step S2: and evaluating the risk condition of the rescue environment.

When the rescue environment does not have potential safety hazards, the cloud platform synchronously starts professional rescue and mutual aid rescue, and professional rescuers and nearby outdoor adventure personnel are respectively informed to carry out rescue; when potential safety hazards exist in the rescue environment, the cloud platform starts professional rescue and informs professional rescuers of rescuing.

It should be noted that since the outdoor expeditioner using the mobile terminal 20 is basically an outdoor fan and does not have the rescue ability of a professional rescue team, the rescue ability of the rescuer is fully considered while the life safety of the rescuer is considered.

In the embodiment of the invention, the environment level is divided into three levels: low, medium and high risk, as follows:

low risk: the environment has no potential safety hazard;

the risk: the environment may present certain safety hazards in the future, such as being dark immediately, coming to rain, or the area being at risk for road damage;

high risk: the environment presents a very large safety hazard in a short time, for example, an impending rainstorm may result in landslide, a flood burst, a sudden drop in temperature may snow or beasts in the area.

It should be noted that, a large amount of geographic information and climate information are stored in the cloud platform 10, which can quickly evaluate the risk of the environment where the rescuer is located according to the status information of the rescuer, and when there is no potential safety hazard, mutual help rescue and professional rescue can be started at the same time; when potential safety hazards exist, only professional rescue can be started. Specifically, when the environmental risk is determined as "low risk", the mutual assistance rescue can be started, the professional rescue can be started synchronously, and if the environmental risk is determined as "medium risk" or "high risk", the cloud platform 10 directly calls the professional rescue. When the rescue environment has potential safety hazard, the cloud platform 10 pushes the risk condition to the mobile terminal 20 of the nearby outdoor adventure to give an early warning, so as to remind the nearby outdoor adventure to pay attention to safety and not go to the risk area.

In order to ensure that rescuers can arrive quickly in low risk situations, the cloud platform 10 screens by determining how easily it is to reach the victim's location.

Specifically, the cloud platform 10 radiates a moving terminal signal around a certain distance (for example, 2 km) in a circle-drawing manner according to the location of the person in danger. Further, the cloud platform 10 calculates an actual path for each nearby rescue worker to reach the position of the person in distress, and evaluates the difficulty and danger degree of each mutual help worker to reach the path of the position of the person in distress through the actual path, so as to screen the outdoor adventure informing the participation of rescue.

And step S3: and evaluating the rescue ability of outdoor expedition personnel who can participate in rescue, and sending the position and the rescue path of the person seeking help to the outdoor expedition personnel who pass through the rescue ability.

After the outdoor adventure who can participate in rescue is selected, the cloud platform 10 further sends out mutual assistance rescue invitation to the outdoor adventure, carries out rescue capability evaluation on the outdoor adventure, and sends the position and the rescue path of the person seeking help to the mobile terminal 20 held by the outdoor adventure if the nearby outdoor adventure passes the rescue capability evaluation, otherwise, the person seeking help is not sent.

The assessment of mutual aid rescue ability will focus on the following: whether the rescue ability is available; whether rescue equipment and materials are available; whether the user is willing to participate in mutual assistance rescue. Through the evaluated personnel, the system sends the position of the person in distress and the planned optimal path to the mobile terminal equipment of the rescue personnel. The selection of the mutual aid rescue path emphasizes the selection of the optimal path, the path, the altitude and the geographic environment are taken as the criteria for key evaluation, and the safest and easiest-to-reach path is selected.

And step S4: when the distance between the person participating in the rescue and the person asking for help is smaller than the set range, the cloud platform 10 sends confirmation information to the person participating in the rescue to confirm whether the person asking for help is found.

In the process of rescue, the cloud platform 10 positions the persons participating in the rescue in real time, and when the distance between the persons participating in the rescue and the person seeking help is found to be smaller than a set range, a message is sent to the persons participating in the rescue to confirm whether the person seeking help is found or not, so that the rescue condition can be known in time.

In summary, according to the outdoor rescue method and the system, the cloud platform and the plurality of mobile terminals are adopted, when the cloud platform receives a rescue request signal sent by a rescuer through the mobile terminals, the rescuer is positioned according to the rescue request signal, nearby outdoor adventure persons are found out, the risk condition of the rescue environment is evaluated, and when the rescue environment has no potential safety hazard, professional rescue and mutual help rescue are started to respectively inform professional rescuers and nearby outdoor adventure persons to rescue; when potential safety hazards exist in the rescue environment, professional rescue is started, professional rescuers are informed to rescue, all surrounding rescue forces can be obtained, the rescue effect of adjacent personnel is exerted to the maximum, and a rescue solution is provided for outdoor victims in multiple dimensions, so that the survival rate of outdoor victims is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An outdoor rescue method is characterized by comprising the following steps:

receiving a rescue request signal of a person seeking help;

positioning the person seeking help according to the rescue request signal, and finding out nearby outdoor adventure persons;

the risk condition of the rescue environment is evaluated,

when the rescue environment has no potential safety hazard, professional rescue and mutual assistance rescue are started synchronously, and professional rescuers and nearby outdoor adventure personnel are informed to carry out rescue respectively;

when potential safety hazards exist in the rescue environment, professional rescue is started, and professional rescuers are informed to rescue.

2. An outdoor rescue method as claimed in claim 1, characterized in that when the rescue environment has a potential safety hazard, the risk situation is pushed to nearby outdoor adventure personnel for early warning.

3. An outdoor rescue method as claimed in claim 2, characterized in that after the mutual aid rescue is started, the rescue ability evaluation is further performed on nearby outdoor expedition personnel, if the nearby outdoor expedition personnel pass the rescue ability evaluation, the position and the rescue path of the person seeking help are sent to the nearby outdoor expedition personnel, otherwise, the position and the rescue path are not sent.

4. An outdoor rescue method as defined in claim 1, wherein after the mutual aid rescue is started and before the nearby outdoor adventure is notified, the method further comprises:

and (4) screening the outdoor expedition personnel notifying the participation of rescue according to the difficulty of the nearby outdoor expedition personnel reaching the help seeker.

5. An outdoor rescue method as claimed in claim 1, characterized in that when the distance between the person participating in the rescue and the person seeking help is less than the set range, confirmation information is sent to the person participating in the rescue to confirm whether the person seeking help is found.

6. An outdoor rescue system is characterized by comprising a cloud platform and a plurality of mobile terminals which are in communication connection with the cloud platform,

the mobile terminal is used for sending a rescue request signal by a person seeking help;

the cloud platform is used for receiving a rescue request signal of a rescuer, positioning the rescuer according to the rescue request signal and finding out nearby outdoor exploration personnel using the mobile terminal;

the cloud platform further assesses the risk profile of the rescue environment,

when the rescue environment has no potential safety hazard, the cloud platform synchronously starts professional rescue and mutual assistance rescue, and notifies professional rescuers and nearby outdoor adventure persons to carry out rescue respectively;

when potential safety hazards exist in the rescue environment, the cloud platform starts professional rescue and informs professional rescuers of rescue.

7. An outdoor rescue system as claimed in claim 6, wherein when the rescue environment has a potential safety hazard, the cloud platform pushes the risk situation to the mobile terminal of the nearby outdoor adventure for early warning.

8. An outdoor rescue system as claimed in claim 6 wherein after the mutual aid rescue is started, the cloud platform further performs rescue ability assessment on nearby outdoor expedition personnel, sends the location and rescue path of the person seeking help to the nearby outdoor expedition personnel if the nearby outdoor expedition personnel passes the rescue ability assessment, and otherwise does not send.

9. An outdoor rescue system as claimed in claim 6 wherein the cloud platform also screens outdoor adventure persons who are notified to participate in the rescue based on how hard they are to reach the rescuer.

10. An outdoor rescue system as claimed in claim 6, characterized in that when the distance between the person participating in the rescue and the person seeking help is less than the set range, the cloud platform sends confirmation information to the person participating in the rescue to confirm whether the person seeking help is found.

Images