CN114906295B - Automatic rescue processing method, device, medium and terminal for preventing drowning in scenic spot - Google Patents

Abstract

The application discloses a method, a device, a medium and a terminal for automatically rescuing from drowning in a scenic spot, wherein the method comprises the following steps: monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data; carrying out immersion judgment according to the environmental pressure data, and selecting and reporting positioning information according to the immersion judgment result; performing drowning judgment on the reported positioning information to obtain a drowning judgment result; according to the drowning judging result, rescue information is sent to the appointed terminal; by adopting the method, whether the tourist drowns or not can be automatically judged, and the tourist can be automatically and rapidly rescued, so that the tourist can be timely rescued after drowning in a scenic spot with a small number of broad people, and the casualties and property loss are avoided.

Description

Automatic rescue processing method, device, medium and terminal for preventing drowning in scenic spot

Technical Field

The application relates to the field of drowning rescue, in particular to a method, a device, a medium and a terminal for automatic rescue treatment of drowning prevention in scenic spots.

Background

Drowning is a common accident, and particularly, a large number of water-entering players often exist in rivers and lakes in scenic spots, so that accidents are easy to occur.

At present, the existing automatic rescue is carried out by an intelligent water surface rescue robot, and the intelligent water surface rescue robot needs to actively give an alarm by people, in certain cases, for example, when a wide scenic spot travels, only one person of the parties is present when drowning occurs, or the parties are not just one, but all drowns do not swim, and no person can give an alarm at this time.

Moreover, the current intelligent water surface rescue robot needs a person to remotely control to position the accurate position of the drowning person, and firefighters start to calculate from the police, so that more than 10 minutes are needed for reaching the on-site conservation estimation. If the drowning event occurs in a wide scenic spot with few people, the requirement of emergency rescue is not met.

Disclosure of Invention

In view of the shortcomings of the prior art, the application aims to provide a method, a device, a medium and a terminal for automatic rescue processing for preventing drowning in scenic spots, which aim to solve the problem of how to perform rapid and automatic rescue.

The embodiment of the application provides a method for automatically rescuing from drowning in a scenic spot, which comprises the following steps:

monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data;

carrying out immersion judgment according to the environmental pressure data, and selecting and reporting positioning information according to the immersion judgment result;

performing drowning judgment on the reported positioning information to obtain a drowning judgment result;

and according to the drowning judgment result, the rescue information is sent to the appointed terminal.

The environment pressure around the tourist is monitored to obtain real-time environment pressure data, the immersion judgment is carried out according to the environment pressure data, the positioning information is selected to be reported according to the immersion judgment result, the drowning judgment is carried out on the reported positioning information to obtain the drowning judgment result, the rescue information is sent to the appointed terminal according to the drowning judgment result, whether the tourist drowns or not can be automatically judged, and the tourist can be automatically and rapidly rescued, so that the tourist can be timely rescued after drowning in a wide scenic spot with fewer people, and the casualties and property loss of personnel are avoided.

As a further improvement, the monitoring of the ambient pressure around the tourist is preceded by:

marking a place which can be drowned in a scenic spot, and uploading marked data to a background management system;

networking a monitoring device and a designated terminal with the background management system, wherein the monitoring device is used for monitoring the ambient pressure around tourists, the designated terminal is used for rescuing the drowned tourists, and the designated terminal comprises rescue equipment;

the monitoring of the ambient pressure around the guest, the obtaining of the real-time ambient pressure data includes:

the monitoring equipment monitors the ambient pressure around the tourist to obtain real-time ambient pressure data.

As a further improved technical scheme, the determining of the immersion according to the environmental pressure data, and the reporting of the positioning information according to the immersion determination result includes:

the monitoring equipment compares the environmental pressure data with a preset value, and if the environmental pressure data is greater than or equal to the preset value, a judgment conclusion that the monitoring equipment is immersed in water is obtained;

if the judgment conclusion that the monitoring equipment is immersed in water is obtained, the monitoring equipment performs positioning through satellites, and positioning information is reported to a background management system through wireless communication.

As a further improved technical scheme, the drowning determination is performed on the reported positioning information, and the obtaining of the drowning determination result includes:

the background management system compares the received positioning information with the marking data, and performs drowning judgment according to the comparison result to obtain a judgment result, wherein if the positioning information is not in the marking data, a judgment result that the tourist is not drowned is obtained, and if the positioning information is in the marking data, a judgment result that the tourist is drowned is obtained.

As a further improved technical scheme, the selecting to send rescue information to the designated terminal according to the drowning judgment result includes:

if the judgment result is that the tourist is drowned, the background management system sends rescue information to the rescue equipment through wireless communication, and the rescue equipment starts rescue after receiving the rescue information, wherein the rescue information comprises positioning information positioned by the monitoring equipment and a drowned rescue instruction;

and if the judgment result shows that the tourist is not drowned, no rescue information is sent to the appointed terminal.

As a further improvement technical scheme, the marking the spot where drowning can occur in the scenic spot and uploading the marked data to the background management system comprises:

dividing a scenic spot into a region which is likely to be drowned and a region which is not drowned;

dividing the area where drowning is likely to occur into a plurality of small areas;

determining the center of each small area, and measuring the longitude and latitude of the center of each small area;

and uploading all longitude and latitude data to a background management system.

As a further improved technical scheme, rescue equipment includes unmanned aerial vehicle and intelligent rescue robot, unmanned aerial vehicle is used for carrying intelligent rescue robot moves the target place, intelligent rescue robot is used for rescuing drowned organism.

A second aspect of the embodiment of the present application provides an automatic rescue device for preventing drowning in a scenic spot, including:

the monitoring module is used for monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data;

the information transmission module is used for carrying out immersion judgment according to the environmental pressure data, and reporting positioning information according to the immersion judgment result;

the drowning judging module is used for carrying out drowning judgment on the reported positioning information to obtain a drowning judging result;

and the rescue module is used for selectively sending rescue information to the appointed terminal according to the drowning judgment result.

A third aspect of the embodiments of the present application provides a computer readable storage medium storing one or more programs executable by one or more processors to implement steps in the scenic spot anti-drowning automatic rescue processing method as described in any one of the above.

A fourth aspect of an embodiment of the present application provides a terminal device, including: a processor, a memory, and a communication bus; the memory has stored thereon a computer readable program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

the processor, when executing the computer readable program, implements the steps in the scenic spot anti-drowning automatic rescue processing method as described in any one of the above.

The beneficial effects are that: compared with the prior art, the scenic spot anti-drowning automatic rescue processing method provided by the application comprises the following steps: monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data; carrying out immersion judgment according to the environmental pressure data, and selecting and reporting positioning information according to the immersion judgment result; performing drowning judgment on the reported positioning information to obtain a drowning judgment result; according to the drowning judging result, rescue information is sent to the appointed terminal; by adopting the method, whether the tourist drowns or not can be automatically judged, and the tourist can be automatically and rapidly rescued, so that the tourist can be timely rescued after drowning in a scenic spot with a small number of broad people, and the casualties and property loss are avoided.

Drawings

Fig. 1 is a flow chart of the automatic rescue processing method for preventing drowning in scenic spots.

Fig. 2 is a frame diagram of the automatic rescue processing method for preventing drowning in scenic spots.

Fig. 3 is a schematic structural diagram of a terminal device provided by the present application.

The achievement of the objects, functional features and advantages of the present application will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the application. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

The inventor finds that the prior art has the following disadvantages:

(1) At present, the existing automatic rescue is carried out through a water surface intelligent rescue robot, and the water surface intelligent rescue robot needs to actively alarm to give an alarm, in some cases, for example, when a wide scenic spot travels with few people, only one person is present when drowning occurs, or the person is not only one, but all drowns can not swim, no person can give an alarm at this time, so the existing water surface intelligent rescue robot needs to actively alarm to give an alarm, and under the condition of drowning, no person can actively alarm.

(2) At present, an intelligent rescue robot on the water surface needs a person to remotely control to position the accurate position of a drowning person, firefighters start to calculate from the police, the arrival scene conservation estimation needs more than 10 minutes, if the drowning event occurs in a scenic spot with a large number of people, the drowning event needs longer time, therefore, each minute and one second are very precious in rescue, and the person in charge of rescue needs a long time from receiving the notification to alarming to arriving at a destination due to the conditions of preparation of tools, complex and changeable land traffic conditions and the like, and cannot meet the requirement of emergency rescue.

In order to solve the above problems, various non-limiting embodiments of the present application are described in detail below with reference to the accompanying drawings.

As shown in fig. 1-2, the method for automatically rescuing from drowning in scenic spots provided by the embodiment of the application comprises the following steps:

s1, monitoring the ambient pressure around tourists to obtain real-time ambient pressure data;

specifically, after the tourist wearing the monitoring device enters the scenic spot, the monitoring device can monitor the ambient pressure around the tourist in real time and obtain real-time ambient pressure data, wherein the ambient pressure can be atmospheric pressure, water pressure and the like, and a sensor which is specially used for detecting the atmospheric pressure, the water pressure and the like, such as a pressure sensor, specifically can be a water pressure sensor, a water pressure sensor and the like, can be arranged in the monitoring device.

Wherein, before monitoring the ambient pressure around the tourist, the method comprises:

marking a place which can be drowned in a scenic spot, and uploading marked data to a background management system;

networking monitoring equipment and an appointed terminal with the background management system, wherein the monitoring equipment is used for monitoring the ambient pressure around tourists, the appointed terminal is used for rescuing the drowned tourists, and the appointed terminal comprises rescue equipment.

The method for marking the spot in the scenic spot, which can be drowned, and uploading the marking data to the background management system comprises the following steps:

dividing a scenic spot into a region which is likely to be drowned and a region which is not drowned;

dividing the area where drowning is likely to occur into a plurality of small areas;

determining the center of each small area, and measuring the longitude and latitude of the center of each small area;

and uploading all longitude and latitude data to a background management system.

Specifically, firstly, a manager in a scenic spot needs to mark all places in the range of the scenic spot, which are likely to be drowned, so as to divide the scenic spot into a region which is likely to be drowned and a region which is not likely to be drowned, wherein the region which is likely to be drowned comprises a river, a lake and other water-bearing regions, then the region which is likely to be drowned is further divided into a plurality of small regions with the size of 2 meters, the longitude and latitude of the central position of each small region are measured by using professional tools, the longitude and latitude of all the small regions are uploaded to a background management system, before the monitoring device and the background management system are networked, the monitoring device can be issued to a tourist hand through a tour guide or staff, the monitoring device can be worn on the body of the tourist in the form of a bracelet, the monitoring device can monitor the ambient pressure around the tourist in real time, the ambient pressure data can be obtained, the ambient pressure can be the atmospheric pressure and the water pressure, and the water pressure is mainly detected in the embodiment.

The method for monitoring the ambient pressure around the tourist, and obtaining real-time ambient pressure data comprises the following steps:

s101, the monitoring equipment monitors the ambient pressure around the tourist to obtain real-time ambient pressure data.

Specifically, since the water pressure is detected mainly by way of example in the embodiment, the monitoring device is provided with a water pressure sensor, so that the pressure of the surrounding environment can be detected, the monitoring device can determine whether to soak in water according to the change of the surrounding environment, and the monitoring device can also be provided with an atmospheric pressure sensor, so that the determination whether to soak in water can be performed by detecting the change of the pressure of the surrounding environment.

S2, carrying out immersion judgment according to the environmental pressure data, and selecting and reporting positioning information according to the immersion judgment result;

specifically, the monitoring device judges whether the monitoring device is immersed according to the monitored real-time environmental pressure data, a judging conclusion is obtained, whether the positioning information is reported to the background management system is selected according to the judging conclusion, if the judging conclusion that the monitoring device is not immersed is obtained, the positioning information is not reported to the background management system, and if the conclusion that the monitoring device is immersed is obtained, the positioning information is reported to the background management system.

The determining of the immersion according to the environmental pressure data, and the selecting of reporting the positioning information according to the immersion determination result include:

s201, comparing the environmental pressure data with a preset value by the monitoring equipment, and if the environmental pressure data is greater than or equal to the preset value, obtaining a judgment conclusion that the monitoring equipment is immersed in water;

s202, if a judgment conclusion that the monitoring equipment is immersed in water is obtained, the monitoring equipment performs positioning through satellites, and positioning information is reported to a background management system through wireless communication.

Specifically, the monitoring equipment is dangerous monitoring equipment, the monitoring equipment is according to environmental pressure data compares with preset value, if environmental pressure data is less than preset value, then obtain the conclusion that monitoring equipment is not immersed in water, if environmental pressure data is greater than or equal to preset value, then obtain the judgement conclusion that monitoring equipment is immersed in water, wherein preset value is the numerical value of inputting monitoring equipment in advance, this numerical value can be the value that is greater than 1 standard atmospheric pressure, if it is the conclusion that monitoring equipment has immersed in water, then monitoring equipment is located the position through big dipper satellite positioning module or GPS positioning module this moment, and report the coordinate information of location in the backstage management system through wireless communication module, after monitoring equipment soaks in water, it is possible that drowning also to bubble monitoring equipment in water under the dangerous circumstances to wear monitoring equipment, the user is possible that the monitoring equipment is immersed in water when washing hands or playing, therefore, need to judge whether the drowning of the visitor really takes place, if the visitor is located the area that can take place, can not take place in the area, can take place in the rescue, if the area can take place, can not take place in the drowning, can take place in the area, if the area can take place in the rescue, and can not take place in the life-saving the area, the drowning can take place, the life-time the life-saving the visitor.

S3, drowning judgment is carried out on the reported positioning information, and a drowning judgment result is obtained;

and the background management system performs drowning judgment according to the received positioning information, if the received positioning information is not in the area where drowning is possible, a judgment result that drowning is not generated is obtained, and if the received positioning information is in the area where drowning is possible, a judgment result that drowning is generated is obtained.

The method for obtaining the drowning judgment result comprises the following steps of:

s301, the background management system compares the received positioning information with the marking data, and performs drowning judgment according to the comparison result to obtain a judgment result, wherein if the positioning information is not in the marking data, a judgment result that the tourist is not drowned is obtained, and if the positioning information is in the marking data, a judgment result that the tourist is drowned is obtained.

Specifically, the background management system compares the received positioning coordinate information with the longitude and latitude of the small area, judges whether the tourist is located in the area where drowning is likely to happen, judges that drowning is happened if the tourist is located in the area where drowning is likely to happen, and judges that drowning is not happened if the tourist is not located in the area where drowning is likely to happen.

S4, according to the drowning judging result, rescue information is sent to the appointed terminal.

Specifically, if the background management system obtains a determination result of occurrence of drowning, the background management system selects to send rescue information to the rescue equipment, and if the background management system does not obtain a determination result of occurrence of drowning, the background management system selects not to send the rescue information.

Wherein, according to drowning decision result select send rescue information to appointed terminal includes:

s401, if the judgment result is that the tourist is drowned, the background management system sends rescue information to the rescue equipment through wireless communication, and after the rescue equipment receives the rescue information, rescue is started, wherein the rescue information comprises positioning information positioned by the monitoring equipment and a drowning rescue instruction; and if the judgment result shows that the tourist is not drowned, no rescue information is sent to the appointed terminal.

The rescue equipment comprises an unmanned aerial vehicle and an intelligent rescue robot, wherein the unmanned aerial vehicle is used for carrying the intelligent rescue robot to run to a target place, and the intelligent rescue robot is used for rescuing a drowned organism.

The rescue information comprises positioning information positioned by the monitoring equipment and a drowning rescue instruction; if the judgment result shows that the tourist is not drowned, no rescue information is sent to the appointed terminal

Specifically, if the rescue center background management system judges that the tourist is drowned, the rescue center background management system sends rescue information to the rescue equipment through wireless communication, after the unmanned aerial vehicle and the intelligent rescue robot receive the rescue information, the unmanned aerial vehicle navigates through the received positioning coordinate information in combination with the Beidou satellite global positioning system or the GPS global positioning system, the portable intelligent rescue robot accurately flies to the drowned position of the tourist, the intelligent rescue robot automatically rescue the drowned tourist according to rescue instructions, therefore, if the tourist is located in an area where drowning is likely to happen, or the tourist is not likely to happen, in order to ensure the life safety of the tourist, no matter whether drowning happens or not, the rescue equipment needs to be sent out to rescue the tourist as long as the tourist is located in the area where drowning is likely to happen, the unmanned aerial vehicle capable of automatically flying to the appointed place according to satellite navigation is available, and the intelligent rescue robot automatically carries out drowning rescue on pets or personnel at the appointed place.

Compared with the prior art, the scenic spot anti-drowning automatic rescue processing method provided by the application comprises the following steps: monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data; carrying out immersion judgment according to the environmental pressure data, and selecting and reporting positioning information according to the immersion judgment result; performing drowning judgment on the reported positioning information to obtain a drowning judgment result; according to the drowning judging result, rescue information is sent to the appointed terminal; after the method is adopted, whether the tourist drowns or not can be automatically judged, and the tourist can be automatically and rapidly rescued, so that the tourist can be timely rescued after drowning in a scenic spot with a small number of wide people, and the casualties and property loss are avoided.

Based on the automatic rescue processing method for preventing drowning in the scenic spot, the application also provides an automatic rescue device for preventing drowning in the scenic spot, which comprises the following steps:

the monitoring module is used for monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data;

the information transmission module is used for carrying out immersion judgment according to the environmental pressure data, and reporting positioning information according to the immersion judgment result;

the drowning judging module is used for carrying out drowning judgment on the reported positioning information to obtain a drowning judging result;

and the rescue module is used for selectively sending rescue information to the appointed terminal according to the drowning judgment result.

In addition, it should be noted that the working process of the automatic rescue processing device based on the scenic spot drowning prevention provided in this embodiment is the same as the working process of the automatic rescue processing method based on the scenic spot drowning prevention, and specifically, the working process of the automatic rescue processing method based on the scenic spot drowning prevention can be referred to, and will not be described again here.

The monitoring module can comprise dangerous monitoring equipment, the drowning judging module can comprise a rescue center background management system, the rescue module can comprise an unmanned aerial vehicle and an intelligent rescue robot, the dangerous monitoring equipment, the unmanned aerial vehicle and the intelligent rescue robot are connected with a Beidou satellite global positioning system or a GPS satellite global positioning system through wireless communication devices, the dangerous monitoring equipment, the unmanned aerial vehicle and the intelligent rescue robot are connected with the rescue center background management system through wireless communication devices, the dangerous monitoring equipment, the unmanned aerial vehicle and the intelligent rescue robot can be positioned and navigated after being connected with the Beidou satellite global positioning system, and after the dangerous monitoring equipment, the unmanned aerial vehicle and the intelligent rescue robot are connected with the rescue center background management system through wireless communication devices, the rescue center background management system can receive information sent by the dangerous monitoring equipment, the unmanned aerial vehicle and the intelligent rescue robot, and the rescue center background management system can send instruction information.

Based on the above-mentioned method for automatically rescuing from drowning in a scenic spot, the present embodiment provides a computer-readable storage medium storing one or more programs executable by one or more processors to implement the steps in the method for automatically rescuing from drowning in a scenic spot as described in the above-mentioned embodiment.

Based on the above-mentioned scenic spot anti-drowning automatic rescue processing method, the application also provides a terminal device, as shown in FIG. 3, which comprises at least one processor (processor) 20; a display screen 21; and a memory (memory) 22, which may also include a communication interface (Communications Interface) 23 and a bus 24. Wherein the processor 20, the display 21, the memory 22 and the communication interface 23 may communicate with each other via a bus 24. The display screen 21 is configured to display a user guidance interface preset in the initial setting mode. The communication interface 23 may transmit information. The processor 20 may invoke logic instructions in the memory 22 to perform the methods of the embodiments described above.

Further, the logic instructions in the memory 22 described above may be implemented in the form of software functional units and stored in a computer readable storage medium when sold or used as a stand alone product.

The memory 22, as a computer readable storage medium, may be configured to store a software program, a computer executable program, such as program instructions or modules corresponding to the methods in the embodiments of the present disclosure. The processor 20 performs functional applications and data processing, i.e. implements the methods of the embodiments described above, by running software programs, instructions or modules stored in the memory 22.

The memory 22 may include a storage program area that may store an operating system, at least one application program required for functions, and a storage data area; the storage data area may store data created according to the use of the terminal device, etc. In addition, the memory 22 may include high-speed random access memory, and may also include nonvolatile memory. For example, a plurality of media capable of storing program codes such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or a transitory storage medium may be used.

By adopting the automatic rescue processing method for preventing drowning in the scenic spot, whether the tourist is drowned or not can be automatically judged, and the tourist can be automatically and rapidly rescued, so that the tourist can be timely rescued after drowning in the scenic spot with a wide range of people, and the casualties and property loss of people are avoided.

It is to be understood that the application is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (7)

1. An automatic rescue processing method for preventing drowning in a scenic spot, which is characterized by comprising the following steps:

monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data;

carrying out immersion judgment according to the environmental pressure data, and selecting positioning information to report according to the immersion judgment result;

performing drowning judgment on the reported positioning information to obtain a drowning judgment result;

according to the drowning judging result, rescue information is sent to the appointed terminal;

the monitoring of the ambient pressure around the guest is preceded by:

marking a place which can be drowned in a scenic spot, and uploading marked data to a background management system;

networking a monitoring device and a designated terminal with the background management system, wherein the monitoring device is used for monitoring the ambient pressure around tourists, the designated terminal is used for rescuing the drowned tourists, and the designated terminal comprises rescue equipment;

the monitoring of the ambient pressure around the guest, the obtaining of the real-time ambient pressure data includes:

the monitoring equipment monitors the ambient pressure around the tourist to obtain real-time ambient pressure data;

if a drowning judgment result is obtained, the background management system sends rescue information to rescue equipment through wireless communication, and the rescue equipment comprises an unmanned aerial vehicle and an intelligent rescue robot; the unmanned aerial vehicle carries out navigation through the received positioning coordinate information and the Beidou satellite global positioning system, and carries the intelligent rescue robot to accurately fly to a drowning position of a tourist, and the intelligent rescue robot automatically rescue the drowning tourist according to rescue instructions;

the determining of the immersion according to the environmental pressure data, and the selecting of reporting the positioning information according to the immersion determination result includes:

the monitoring equipment compares the environmental pressure data with a preset value, and if the environmental pressure data is greater than or equal to the preset value, a judgment conclusion that the monitoring equipment is immersed in water is obtained;

if a judgment conclusion that the monitoring equipment is immersed in water is obtained, the monitoring equipment performs positioning through satellites, and positioning information is reported to a background management system through wireless communication;

carrying out drowning judgment on the reported positioning information, wherein obtaining a drowning judgment result comprises the following steps:

the background management system compares the received positioning information with the marking data, and performs drowning judgment according to the comparison result to obtain a drowning judgment result, wherein if the positioning information is not in the marking data, a judgment result that the tourist is not drowned is obtained, and if the positioning information is in the marking data, a judgment result that the tourist is drowned is obtained.

2. The method for automatically rescuing from drowning in scenic spot according to claim 1, wherein the selecting to send rescue information to the specified terminal according to the result of the drowning judgment comprises:

if the drowning judgment result is that the tourist is drowned, the background management system sends rescue information to the rescue equipment through wireless communication, and the rescue equipment starts to rescue after receiving the rescue information, wherein the rescue information comprises positioning information positioned by the monitoring equipment and a drowning rescue instruction;

and if the drowning judgment result shows that the tourist is not drowned, no rescue information is sent to the appointed terminal.

3. The method for automatically rescuing from drowning in a scenic spot according to claim 2, wherein the marking the spot in the scenic spot where the drowning can occur and uploading the marked data to the background management system comprises:

dividing a scenic spot into a region which is likely to be drowned and a region which is not drowned;

dividing the area where drowning is likely to occur into a plurality of small areas;

determining the center of each small area, and measuring the longitude and latitude of the center of each small area;

and uploading all longitude and latitude data to a background management system.

4. A scenic spot anti-drowning automatic rescue processing method according to claim 3, characterized in that the rescue equipment comprises an unmanned aerial vehicle and an intelligent rescue robot, the unmanned aerial vehicle is used for carrying the intelligent rescue robot to run to a target site, and the intelligent rescue robot is used for rescuing a drowned living being.

5. Automatic rescue device of drowning is prevented in scenic spot, a serial communication port, include:

the monitoring module is used for monitoring the ambient pressure around the tourist to obtain real-time ambient pressure data;

the information transmission module is used for carrying out immersion judgment according to the environmental pressure data, and reporting positioning information according to the immersion judgment result; the system is also used for marking places capable of drowning in scenic spots and uploading marking data to a background management system; networking a monitoring device and a designated terminal with the background management system, wherein the monitoring device is used for monitoring the ambient pressure around tourists, the designated terminal is used for rescuing the drowned tourists, and the designated terminal comprises rescue equipment; the monitoring of the ambient pressure around the guest, the obtaining of the real-time ambient pressure data includes: the monitoring equipment monitors the ambient pressure around the tourist to obtain real-time ambient pressure data;

the drowning judging module is used for carrying out drowning judgment on the reported positioning information to obtain a drowning judging result; the monitoring equipment is also used for comparing the environmental pressure data with a preset value, and obtaining a judgment conclusion that the monitoring equipment is immersed in water if the environmental pressure data is larger than or equal to the preset value; the background management system is also used for comparing the received positioning information with the marking data, and carrying out drowning judgment according to the comparison result to obtain a drowning judgment result, wherein if the positioning information is not in the marking data, a judgment result that the tourist is not drowned is obtained, and if the positioning information is in the marking data, a judgment result that the tourist is drowned is obtained;

the rescue module is used for selecting to send rescue information to the appointed terminal according to the drowning judgment result; the background management system is also used for sending rescue information to rescue equipment if a drowning judgment result is obtained, and the rescue equipment comprises an unmanned aerial vehicle and an intelligent rescue robot; the unmanned aerial vehicle is navigated by combining the received positioning coordinate information with a Beidou satellite global positioning system, and carries the intelligent rescue robot to accurately fly to a tourist drowning place, and the intelligent rescue robot automatically rescue the drowned tourist according to rescue instructions.

6. A computer readable storage medium storing one or more programs executable by one or more processors to implement the steps in the scenic spot anti-drowning automatic rescue processing method according to any one of claims 1 to 4.

7. A terminal device, comprising: a processor, a memory, and a communication bus, the memory having stored thereon a computer readable program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

the processor, when executing the computer readable program, implements the steps of the scenic spot anti-drowning automatic rescue processing method according to any one of claims 1 to 4.