CN110738824A - Water area alarm method and device based on companion lines, electronic equipment and storage medium - Google Patents

Abstract

The invention provides an companion-peer-based water area alarm method which comprises a command terminal and a plurality of peer rescuer terminals, wherein the command terminal is connected with the terminals through an ad hoc network, the command terminal acquires positioning data of the terminals, the terminals acquire vital sign parameters of corresponding rescuers, the terminals send the positioning data and the vital sign parameters to the command terminal through the ad hoc network, the command terminal receives an alarm signal sent by the terminals and/or the command terminal generates an alarm signal for the corresponding terminals through analyzing the positioning data or the vital sign parameters, and the command terminal sends a withdrawal instruction to the alarm terminal and/or the command terminal analyzes the vital sign parameters and the positioning data of each terminal and sends rescue instructions to other peer terminals.

Description

Water area alarm method and device based on companion lines, electronic equipment and storage medium

Technical Field

The invention relates to the field of security equipment, in particular to a water area alarm method and device based on a peer-to-peer, electronic equipment and a storage medium.

Background

The water area safety is the focus of international attention, the drowning time of a water area is the third approximately preventable casualty factor in the global sudden death event, the number of people dying due to drowning is about 50 million people worldwide, and occupies 0.7% of all death event modes, the water area rescue is rescue projects with strong sudden nature, urgent time, high technical requirements, high rescue difficulty and high danger, the water difficulty rescue accidents all over the country increase this year, and rescuers face huge pressure on water rescue.

The danger degree of rescue actions in a water area is not less than other disasters, so when rescue work is carried out in a dangerous environment, a more complete rescue safety management mechanism must be constructed, generally, when rescue work is carried out, a plurality of trained rescuers form a group to carry out rescue work in a cooperative manner, however, water flows in the water area are diversified, surging currents flow underwater, danger risks of the rescuers are greatly increased, when rescuers in a rescue group are in danger and leave the rescue group, if the other team members of the rescue group find the danger team members and immediately rescue the danger team members, the whole rescue group can possibly fall into a dangerous situation, at the moment, the rescue group immediately applies for other rescue equipment and/or rescue personnel to rescue the danger team members, but because the noise of the water flow is large in the water area, the possibility that the other rescue team members cannot find the danger team members in time, cannot send out timely alarm signals, and the danger warning team members cannot send out timely.

With the development of wireless communication technology, the terminal is connected with a remote command terminal through wireless communication, and the command terminal can monitor and acquire terminal data in real time; for example, the wireless internet broadband communication technology, the narrow-band communication technology and the internet of things communication technology for equipment data acquisition and monitoring can greatly help and protect the lifeguard if the technology is applied to the field of water area rescue.

Disclosure of Invention

The invention aims to solve the technical problems and provides water area alarming methods, devices, electronic equipment and storage media based on fellow associates.

In order to achieve the purpose, the technical scheme of the invention is as follows:

A water area alarm method based on peer-to-peer, comprising a command end and a plurality of live saving personnel terminals of the same peer, wherein the command end is connected with the live saving personnel terminals through an ad hoc network, the alarm method comprises the following steps:

the lifesaver terminal acquires positioning data of the lifesaver terminal;

collecting vital sign parameters of a corresponding rescuer by a rescuer terminal;

the lifesaver terminal sends the positioning data and the vital sign parameters to the command terminal through the ad hoc network;

the command end receives an alarm signal sent by the lifesaver terminal and/or generates an alarm signal to the corresponding lifesaver terminal by analyzing the positioning data or the vital sign parameters;

the command terminal sends a withdrawal command to the alarming rescuer terminals and/or the command terminal analyzes the vital sign parameters and the positioning data of each rescuer terminal and sends rescue commands to other rescuer terminals in the same row.

According to companion-peer-based water area alarm methods, based on the characteristics of high rescue difficulty, high danger degree and high unknown degree in a water area, generally adopts a rescue team mode to rescue, each companion in the team is trained professionally to cooperate with each other to complete a water area rescue task, alarm methods are provided for the rescuers in distress to ensure the safety of the team members, a command terminal can actively send an alarm signal by monitoring the position and vital sign parameters of a rescue member terminal, and the command terminal can synchronously generate the alarm signal by analyzing the vital sign parameters of the rescue member terminal, so that the method can timely find the rescuers in distress, send withdrawal instructions to the rescuers in distress through the command terminal, or inform the rescuers in the companion-peer to carry out rescue to the rescuers in distress, and avoid the situation that the companion in the peer ignores the rescue personnel in distress due to being dedicated to the rescue task, thereby ensuring the safety of the rescuers who work in the water area.

Further , the method further includes:

the life sign parameters are provided with parameter thresholds, and the command terminal judges whether the life rescuer terminal is really in danger or not by analyzing whether the life sign parameters of the alarming life rescuer terminal reach or exceed the thresholds, the life rescuer in danger can also change along with the change of the life sign parameters, and the command terminal can quickly analyze the terminal in danger through the steps so as to alarm in time.

Further , the method further comprises:

the command terminal calculates whether the distance between the rescuer terminal generating the alarm signal and other rescuers in the same row exceeds the distance threshold through the positioning data of the rescuer terminal, if so, the real distress of the rescuer terminal giving the alarm is judged, and the rescue activities in the water area can lead the rescuers in the same row to act by a system to avoid falling behind as much as possible, if a certain rescuer falls behind, the distress can be judged to be in danger to a certain extent in , and the command terminal gives an alarm in time, so that the fellow companions can timely pay attention to the rescuers.

, further comprising a drone and/or an intercom, the method further comprising:

the command terminal acquires images of the lifeguard terminal giving an alarm in real time through the unmanned aerial vehicle and/or the command terminal carries out voice talkback communication with the lifeguard terminal through the interphone. Can assist the commander to confirm the condition at lifeguard terminal fast through unmanned aerial vehicle and intercom.

And , the command terminal and the lifesaver terminal are connected and interacted through the Lora or NBlot ad hoc network communication technology.

And , acquiring the vital sign parameters including heart rate value and body temperature value, and acquiring the positioning data through a GPS module or a Beidou positioning module.

Further , the method further comprises:

parameter threshold values are respectively set for the heart rate value and the body temperature value, and the command end judges whether the life rescuer terminal is really in danger or not by analyzing whether the heart rate value or the body temperature value of the alarm life rescuer terminal reaches or exceeds the threshold values.

kinds of waters alarm device based on companion's peer, including command end and a plurality of live saving personnel terminal of peer, command end and live saving personnel terminal pass through ad hoc network connection, still include:

the positioning module is used for enabling the lifesaver terminal to obtain positioning data of the lifesaver terminal;

the acquisition module is used for enabling the lifesaver terminal to acquire the vital sign parameters of the corresponding lifesaver;

the communication module is used for enabling the lifesaver terminal to send the positioning data and the vital sign parameters to the command terminal through the ad hoc network; the command terminal sends a withdrawal command to the alarming rescuer terminals and/or the command terminal analyzes the vital sign parameters and the positioning data of each rescuer terminal and sends rescue commands to other rescuer terminals in the same row;

and the alarm module is used for enabling the command terminal to receive an alarm signal sent by the rescuer terminal and/or enabling the command terminal to generate an alarm signal for the corresponding rescuer terminal by analyzing the positioning data or the vital sign parameters.

electronic device comprising a processor, a storage medium, and a computer program, the computer program being stored in the storage medium, the computer program, when executed by the processor, implementing the above-mentioned companion-row-based water area warning method.

computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the companion-row-based water area warning method described above.

Drawings

FIG. 1 is a flow chart of a water area alarm method based on a peer-to-peer row according to the present invention;

fig. 2 is a schematic diagram of a water area alarm method based on a peer row according to the invention.

Detailed Description

The water area alarm method, device, electronic equipment and storage medium based on the fellow peer will be described in detail with reference to the accompanying drawings to explain and illustrate the protection scope of the invention.

As shown in fig. 1, a water area alarm method based on peer-to-peer, comprising a command terminal and a plurality of live rescuer terminals of the same peer, wherein the command terminal is connected with the live rescuer terminals through an ad hoc network, the alarm method comprises the following steps:

the lifesaver terminal acquires positioning data of the lifesaver terminal;

the lifesaver terminal is internally provided with a GPS module or a Beidou positioning module, and thereby positioning data of the lifesaver terminal is obtained through the satellite positioning modules.

The lifesaver terminal collects vital sign parameters of a corresponding lifesaver.

On the life jacket worn by the lifesaver, a sensor for detecting vital sign parameters can be woven in the fabric of the clothes, or the life jacket is directly fixed on the life jacket through other fixing means.

The vital sign parameters comprise heart rate values and body temperature values, the heart rate values can be measured by placing two electrodes on the chest of the life jacket and measuring the discharge of a human body through the two electrodes; the body temperature value can be measured by a temperature sensor.

The lifesaver terminal sends the positioning data and the vital sign parameters to the command terminal through the ad hoc network.

And the command terminal and the lifesaver terminal are connected and interacted through a Lora or NBlot ad hoc network communication technology.

As shown in FIG. 2, comprising Lora or NBlot ad hoc network modules, connecting the commander terminal and the rescuer terminal and implementing the following functions function ① may alarm manually or automatically when the rescuer is in danger, transmitting the alarm signal to the ad hoc network.

Function ② self-organized network feeds back alarm signal to command terminal, function ③ command terminal sends corresponding command to self-organized network after judging alarm signal, function ④ self-organized network sends command to appointed rescuer, which includes withdrawing command and companion rescue command.

In order to ensure that the command terminal masters the real-time picture of the live rescuer and communicates with the live rescuer in time, the method further comprises an unmanned aerial vehicle and/or an interphone, and the method further comprises the following steps:

the command terminal acquires images of the lifeguard terminal giving an alarm in real time through the unmanned aerial vehicle and/or the command terminal carries out voice talkback communication with the lifeguard terminal through the interphone. Can assist the commander end to confirm the condition at lifesaver terminal fast through unmanned aerial vehicle and intercom for the commander end can be more accurate make the judgement after confirming the site conditions.

According to companion-peer-based water area alarm methods, based on the characteristics of high rescue difficulty, high danger degree and high unknown degree in a water area, generally adopts a rescue team mode to rescue, each companion in the team is trained professionally to cooperate with each other to complete a water area rescue task, alarm methods are provided for the rescuers in distress to ensure the safety of the team members, a command terminal can actively send an alarm signal by monitoring the position and vital sign parameters of a rescue member terminal, and the command terminal can synchronously generate the alarm signal by analyzing the vital sign parameters of the rescue member terminal, so that the method can timely find the rescuers in distress, send withdrawal instructions to the rescuers in distress through the command terminal, or inform the rescuers in the companion-peer to carry out rescue to the rescuers in distress, and avoid the situation that the companion in the peer ignores the rescue personnel in distress due to being dedicated to the rescue task, thereby ensuring the safety of the rescuers who work in the water area.

Example

The command end receives an alarm signal sent by the lifesaver terminal.

At the moment, the lifesaver terminal is provided with an alarm key, and if the lifesaver terminal is in danger and has consciousness, the alarm key can be actively pressed to send an alarm signal.

The command terminal sends a withdrawal command to the alarming rescuer terminals and/or the command terminal analyzes the vital sign parameters and the positioning data of each rescuer terminal and sends rescue commands to other rescuer terminals in the same row.

After receiving the alarm signal sent by the rescuer terminal, the command terminal can immediately send a withdrawal instruction to the rescuer terminal which gives the alarm, and the corresponding rescuer can withdraw from rescue by himself at the moment; if the rescuer can not exit the rescue by himself at the moment and needs the rescue of the fellow, the command end can also command the rescuer in the same row to carry out the rescue on the rescuer who gives an alarm in time, so that the situation that the rescuer in the same row is dedicated to the rescue task and can not timely master the actual situation of the teammates in the nearby row is avoided, and the safety of the rescuer participating in the rescue action in the water area is ensured.

In addition, in order to guarantee the safety of the rescuers in the same row, the rescuers giving an alarm can be used for carrying out rescue work by analyzing the vital sign parameters and the positioning data and selecting the rescuers with proper communication state.

Example two

On the basis of the embodiment , automatic alarm schemes are set.

The life sign parameters collected by the life rescuer terminal are analyzed, whether the state of the life rescuer is suitable for continuing to execute the task or not is judged, specifically, the life sign parameters are provided with parameter threshold values, and the command terminal judges whether the life rescuer terminal is really in danger or not by analyzing whether the life sign parameters of the alarm life rescuer terminal reach or exceed the threshold values or not, the life rescuer in danger can also change along with the change of the life sign parameters, so that the command terminal can quickly analyze the terminal in danger through the steps, alarm is timely carried out, and an alarm signal is sent out.

And the command terminal judges according to the received vital sign parameters, and if the parameters exceed the set parameter threshold, the command terminal can also alarm synchronously, so that the command terminal can also alarm in time, the time for the command terminal to generate (receive) an alarm signal is shortened, and the delay time of the alarm signal transmitted to the command terminal by the rescuer terminal is avoided.

The vital sign parameters comprise heart rate values and body temperature values, parameter threshold values can be set for the heart rate values and the body temperature values respectively, and the command end judges whether the life rescuer terminal is in real danger or not by analyzing whether the heart rate values or the body temperature values of the alarm life rescuer terminal reach or exceed the threshold values.

EXAMPLE III

On the basis of the embodiment and the second embodiment, automatic alarm schemes are also provided.

And the command terminal generates an alarm signal for the corresponding lifesaver terminal by analyzing the positioning data.

The command terminal calculates whether the distance between the rescuer terminal generating the alarm signal and other rescuers in the same row exceeds the distance threshold through the positioning data of the rescuer terminal, if so, the real distress of the rescuer terminal giving the alarm is judged, and the rescue activities in the water area can lead the rescuers in the same row to act by a system to avoid falling behind as much as possible, if a certain rescuer falls behind, the distress can be judged to be in danger to a certain extent in , and the command terminal gives an alarm in time, so that the fellow companions can timely pay attention to the rescuers.

And the command terminal can visually display the received positioning data of the lifesaver terminal on a display interface, for example, the position of the lifesaver terminal is marked in a map by adopting a GIS map dotting mode and is displayed on the display interface of the command terminal.

Example four

kinds of waters alarm device based on companion's peer, including command end and a plurality of live saving personnel terminal of peer, command end and live saving personnel terminal pass through ad hoc network connection, still include:

the positioning module is used for enabling the lifesaver terminal to obtain positioning data of the lifesaver terminal;

the acquisition module is used for enabling the lifesaver terminal to acquire the vital sign parameters of the corresponding lifesaver;

the communication module is used for enabling the lifesaver terminal to send the positioning data and the vital sign parameters to the command terminal through the ad hoc network; the command terminal sends a withdrawal command to the alarming rescuer terminals and/or the command terminal analyzes the vital sign parameters and the positioning data of each rescuer terminal and sends rescue commands to other rescuer terminals in the same row;

and the alarm module is used for enabling the command terminal to receive an alarm signal sent by the rescuer terminal and/or enabling the command terminal to generate an alarm signal for the corresponding rescuer terminal by analyzing the positioning data or the vital sign parameters.

EXAMPLE five

electronic equipment comprising a processor, a storage medium and a computer program stored in the storage medium, wherein the computer program is executed by the processor to implement the above-mentioned companion-row-based water alarm method, the number of processors in the computer equipment may be or more, and the processor, the memory, the input device and the output device in the electronic equipment may be connected by a bus or other means.

EXAMPLE six

A computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the above peer-based water area alerting method, the method comprising the peer-based water area alerting method of embodiments through A.

Of course, the storage media containing computer executable instructions provided by the embodiments of the present invention are not limited to the method operations described above, and may also perform related operations in the peer-based water alarm method provided by any embodiments of the present invention.

Based on the understanding that the technical solutions of the present invention can be embodied in the form of software products, such as floppy disks, Read-Only memories (ROMs), Random Access Memories (RAMs), FLASH memories (flashes), hard disks, optical disks, etc., which are stored in a computer-readable storage medium, and include instructions for enabling electronic devices (which may be mobile phones, personal computers, servers, or network devices, etc.) to execute the methods according to the embodiments of the present invention.

It should be noted that, in the embodiment of the water area alarm device based on the peer-to-peer rows, the included units and modules are only divided according to the functional logic, but are not limited to the above division as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and modifications and variations of the present invention are intended to fall within the scope of the claims of the present invention.

Claims (10)

1, A water area alarm method based on peer-to-peer, which is characterized in that the alarm method comprises a command terminal and a plurality of live saving personnel terminals in the same peer, wherein the command terminal is connected with the live saving personnel terminals through an ad hoc network, and the alarm method comprises the following steps:

the lifesaver terminal acquires positioning data of the lifesaver terminal;

collecting vital sign parameters of a corresponding rescuer by a rescuer terminal;

the lifesaver terminal sends the positioning data and the vital sign parameters to the command terminal through the ad hoc network;

the command end receives an alarm signal sent by the lifesaver terminal and/or generates an alarm signal to the corresponding lifesaver terminal by analyzing the positioning data or the vital sign parameters;

the command terminal sends a withdrawal command to the alarming rescuer terminals and/or the command terminal analyzes the vital sign parameters and the positioning data of each rescuer terminal and sends rescue commands to other rescuer terminals in the same row.

2. The peer-based water area alarm method of claim 1, further comprising:

the vital sign parameters are provided with parameter thresholds, and the command terminal judges whether the life rescuer terminal is really in danger or not by analyzing whether the vital sign parameters of the alarm life rescuer terminal reach or exceed the thresholds or not.

3. The peer-based water area alarm method of claim 1, further comprising:

and a distance threshold value is arranged between the rescuer terminals, the command terminal calculates whether the distance between the rescuer terminal generating the alarm signal and other rescuers in the same row exceeds the distance threshold value or not through the positioning data of the rescuer terminal, and if the distance exceeds the distance threshold value, the fact that the rescuer terminal giving an alarm is in danger is judged.

4. The peer-based water area alarm method of any one of claims 1-3 and , further comprising a drone and/or a walkie-talkie, the method further comprising:

the command terminal acquires images of the lifeguard terminal giving an alarm in real time through the unmanned aerial vehicle and/or the command terminal carries out voice talkback communication with the lifeguard terminal through the interphone.

5. The peer-based water area alarm method according to claim 1, wherein the command terminal and the lifesaver terminal are connected and interacted through Lora or NBlot ad hoc network communication technology.

6. The peer-based water area alarm method of claim 1, wherein the vital sign parameters comprise a heart rate value and a body temperature value; the positioning data is obtained through a GPS module or a Beidou positioning module.

7. The peer-based water area alarm method of claim 6, further comprising:

parameter threshold values are respectively set for the heart rate value and the body temperature value, and the command end judges whether the life rescuer terminal is really in danger or not by analyzing whether the heart rate value or the body temperature value of the alarm life rescuer terminal reaches or exceeds the threshold values.

8, kind of waters alarm device based on peer, its characterized in that, including command end and a plurality of peer's lifesaving personnel terminal, command end and lifesaving personnel terminal pass through ad hoc network connection, still include:

the positioning module is used for enabling the lifesaver terminal to obtain positioning data of the lifesaver terminal;

the acquisition module is used for enabling the lifesaver terminal to acquire the vital sign parameters of the corresponding lifesaver;

the communication module is used for enabling the lifesaver terminal to send the positioning data and the vital sign parameters to the command terminal through the ad hoc network; the command terminal sends a withdrawal command to the alarming rescuer terminals and/or the command terminal analyzes the vital sign parameters and the positioning data of each rescuer terminal and sends rescue commands to other rescuer terminals in the same row;

and the alarm module is used for enabling the command terminal to receive an alarm signal sent by the rescuer terminal and/or enabling the command terminal to generate an alarm signal for the corresponding rescuer terminal by analyzing the positioning data or the vital sign parameters.

An electronic device of 9, comprising a processor, a storage medium, and a computer program, the computer program being stored in the storage medium, wherein the computer program, when executed by the processor, implements the peer-to-peer based water area alert method of any of claims 1 to 7 through .

10, computer-readable storage medium having stored thereon a computer program, characterized in that the computer program, when being executed by a processor, implements the peer-based water area alert method of any of claims 1 to 7.

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