CN115988190A - Fire fighting AR terminal display system, method and computer readable storage medium - Google Patents

Abstract

The invention discloses a fire fighting AR terminal display system, a fire fighting AR terminal display method and a computer readable storage medium, and relates to the field of AR glasses. The communication module is used for receiving monitoring information of a fire site or sending a control signal; the monitoring information comprises sensor information, audio information or video information of a fire fighting site; the information processing module is used for decoding monitoring information of the fire scene to obtain decoded monitoring information; the display screen is used for displaying the decoded monitoring information to form an image source; the optical waveguide module is used for displaying an image source; the control module is used for generating a control signal according to the decoded monitoring information; the control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting facilities on a fire-fighting site; the stop signal is used for shutting down the fire-fighting equipment on the fire-fighting site. The invention improves the efficiency of the fire-fighting manager for checking the dangerous case information, and the fire-fighting manager can start the fire-fighting facilities by using the control module to generate the control signal, thereby improving the response speed of the fire-fighting manager to the dangerous case.

Description

Fire fighting AR terminal display system, method and computer readable storage medium

Technical Field

The invention relates to the technical field of AR glasses, in particular to a fire-fighting AR terminal display system, a fire-fighting AR terminal display method and a computer-readable storage medium.

Background

When a fire-fighting manager needs to know fire-fighting site information and dangerous case information, the fire-fighting manager needs to check the information in a monitoring room or a weak-current equipment management machine room, the mode for checking the fire-fighting site information is low in efficiency, the fire-fighting manager cannot start fire-fighting facilities at the first time after the dangerous case occurs, and the response speed of the fire-fighting manager to the dangerous case is reduced.

Disclosure of Invention

The embodiment of the invention aims to provide a fire fighting AR terminal display system, a fire fighting AR terminal display method and a computer readable storage medium, so that the efficiency of a fire fighting manager for checking on-site dangerous case information is improved, and the response speed of the fire fighting manager to dangerous cases is improved.

In order to achieve the above object, the embodiment of the present invention provides the following solutions:

a fire protection AR terminal display system, comprising:

the communication module is used for receiving monitoring information of a fire fighting site or sending a control signal; the monitoring information comprises sensor information, audio information or video information of a fire site;

the information processing module is connected with the communication module and used for decoding the monitoring information of the fire fighting site to obtain the decoded monitoring information;

the display screen is connected with the information processing module and used for displaying the decoded monitoring information to form an image source;

the optical waveguide module is connected with the display screen and is used for displaying the image source;

the control module is connected with the information processing module and used for generating the control signal according to the decoded monitoring information;

the control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting facilities on a fire-fighting site; the stop signal is used for shutting down the fire-fighting equipment on the fire-fighting site.

Optionally, a remote module is further included;

the remote module is used for generating monitoring information of the fire fighting site.

Optionally, the remote module is further configured to receive the control signal.

Optionally, the remote module comprises:

the communication unit is used for sending monitoring information of the fire fighting site or receiving the starting signal or the stopping signal;

the sensor unit is connected with the communication unit and used for monitoring a fire site and generating the sensor information;

the camera unit is connected with the communication unit and used for monitoring a fire site, identifying a fire-fighting identifier and generating the audio information or the video information;

the fire-fighting equipment driving unit is connected with the communication unit and used for starting the fire-fighting equipment according to the starting signal; for shutting down the fire fighting equipment according to the stop signal.

Optionally, the communication module comprises a wireless communication unit, and/or a wired communication unit; the communication unit includes a wireless communication subunit, and/or a wired communication subunit.

Optionally, the optical waveguide module includes an array optical waveguide unit or a holographic optical waveguide unit.

Optionally, a bracket is also included; the support is used for installing the communication module, the information processing module, the display screen, the optical waveguide module and the control module.

The invention also provides a fire fighting AR terminal display method, which comprises the following steps:

acquiring monitoring information of a fire fighting site; the monitoring information comprises sensor information, audio information or video information of a fire fighting site;

decoding the monitoring information of the fire fighting site to obtain decoded monitoring information;

displaying the decoded monitoring information to form an image source;

displaying the image source;

generating a control signal according to the decoded monitoring information, and sending the control signal;

the control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting facilities on a fire-fighting site; the stop signal is used for shutting down the fire-fighting equipment on the fire-fighting site.

The present invention also provides a computer-readable storage medium having stored therein instructions, which, when executed on a computer, cause the computer to perform the operations performed by the control module of any of the above.

The embodiment of the invention provides a fire fighting AR terminal display system, a fire fighting AR terminal display method and a computer readable storage medium. The communication module receives monitoring information of a fire fighting site or sends a control signal; the monitoring information comprises sensor information, audio information or video information of a fire fighting site; the information processing module decodes the monitoring information of the fire fighting site to obtain decoded monitoring information; the display screen displays the decoded monitoring information to form an image source; the optical waveguide module is used for displaying an image source, so that a fire manager is prevented from going to a monitoring room or a weak current equipment management machine room to check on-site dangerous cases, the efficiency of the fire manager for checking on-site dangerous case information is improved, the fire manager uses the control module to generate control signals according to decoded monitoring information, and the control signals comprise starting signals or stopping signals; the starting signal is used for starting fire-fighting equipment on a fire-fighting site; the stop signal is used for shutting down the fire-fighting facilities on the fire-fighting site, so that the response speed of a fire-fighting manager to the dangerous case is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a fire fighting AR terminal display system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a remote module according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating an application of a fire fighting AR terminal display system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of information transmission of a fire fighting AR terminal display system according to an embodiment of the present invention;

fig. 5 is a schematic view of an installation location of a remote module of a fire fighting AR terminal display system according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a fire fighting AR terminal display system during training according to an embodiment of the present invention;

fig. 7 is a schematic flowchart of a fire fighting AR terminal display method according to an embodiment of the present invention.

Description of the symbols:

the system comprises a communication module-1, an information processing module-2, a display screen-3, an optical waveguide module-4, a control module-5, a remote module-6, a communication unit-61, a sensor unit-62, a camera unit-63, a fire-fighting equipment driving unit-64 and a support-7.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention aims to provide a fire fighting AR terminal display system, a fire fighting AR terminal display method and a computer readable storage medium, which solve the problems that the mode efficiency of a fire fighting manager for checking fire fighting information is low, the fire fighting manager cannot start fire fighting facilities at the first time after an emergency occurs, and the response speed of the fire fighting manager to the emergency is low.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

The intelligent building fire-fighting equipment is used in the indoor life of people. The construction of fire-fighting facilities provides good and powerful guarantee for the safety of life and property of people. With the development of science and technology, fire-fighting facilities are gradually developed to the fields of automation, intellectualization and unmanned. More advanced scientific technology and fire-fighting facilities are applied to the field of fire fighting, and the property and life safety of people can be guaranteed more timely and accurately.

Current fire monitoring systems include only a computer and some sensors. When fire-fighting dangerous cases occur, the time is the life, the time is better saved, and the life and property safety of people is guaranteed to the maximum extent.

The fire fighting AR terminal display system provided by the embodiment of the invention can well solve the problem. When suspected dangerous situations occur, the fire fighting AR terminal display system can display the relevant suspected dangerous situation information in front of a fire fighting manager in time, so that the fire fighting manager can accurately judge the relevant suspected dangerous situation information and judge whether the information is a fire fighting dangerous situation or not. If the fire-fighting dangerous situation (smoking, misoperation and the like) does not exist, the fire-fighting alarm is timely released. If the fire fighting dangerous situation exists, a fire fighting manager can send a control instruction through the fire fighting AR terminal display system according to the fire fighting emergency plan to make quick and accurate fire fighting measures.

Fig. 1 shows an exemplary structure of the fire fighting AR terminal display system, which includes a communication module 1, an information processing module 2, a display screen 3, an optical waveguide module 4, and a control module 5. Each of which is described in detail below.

The communication module 1 is used for receiving monitoring information of a fire fighting site or sending a control signal; the monitoring information comprises sensor information, audio information or video information of a fire fighting site.

In one example, the communication module 1 may receive sensor information, audio information or video information from a fire scene in which an emergency occurs, and may also receive control signals from other fire protection AR terminal display systems. The communication module 1 can send control signals to a fire fighting site in danger and also can send sensor information, audio information or video information from the fire fighting site in danger to other fire fighting AR terminal display systems. The communication module 1 not only realizes the interconnection and intercommunication between the fire fighting AR terminal display system and the dangerous case site, but also realizes the interconnection and intercommunication between different fire fighting AR terminal display systems.

The information processing module 2 is connected with the communication module 1, and the information processing module 2 is used for decoding monitoring information of a fire scene to obtain decoded monitoring information.

In one example, the information processing module 2 may be a System On Chip (SOC). In practical application, after the communication module 1 receives monitoring information of a fire fighting site from a dangerous situation site or other fire fighting AR terminal display systems (the monitoring information is transmitted to the communication module 1 in the form of digital video signals), the information processing module 2 analyzes the monitoring information of the fire fighting site to obtain decoded monitoring information.

The display screen 3 is connected with the information processing module 2, and the display screen 3 is used for displaying the decoded monitoring information to form an image source.

In one example, the display screen 3 may specifically be a display screen such as an LCoS, a Micro LED, or a Micro OLED, and the display screen 3 has a screen resolution of 1080P or 720P.

The optical waveguide module 4 is connected with the display screen 3, and the optical waveguide module 4 is used for displaying an image source.

In one example, optical waveguide module 4 displays an image source that presents audio, pictures or video of the hazardous scene to the fire manager. The fire-fighting manager observes the picture of the dangerous scene through the optical waveguide module 4, can learn the general position information and the specific alarm information of the dangerous scene in the picture, and can also distinguish the dangerous scene alarm caused by man-made fire or other personnel misoperation in the picture.

The control module 5 is connected with the information processing module 2, and the control module 5 is used for generating a control signal according to the decoded monitoring information.

The control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting facilities on a fire-fighting site; the stop signal is used to shut down the fire-fighting equipment in the fire-fighting site.

In one example, after the fire manager operates the control module 5 to generate a control signal according to the decoded monitoring information, the information processing module 2 decodes the control signal to obtain the decoded control signal, and the control signal is displayed in front of the fire manager through the display screen 3 and the optical waveguide module 4.

In another example, after the control module 5 generates the control signal, the control signal may send the fire scene control sensor, the camera or the fire fighting equipment that is in danger to start and stop through the communication module 1, or may send the control signal to other fire fighting AR terminal display systems, and display the control signal on the other fire fighting AR terminal display systems.

Referring to fig. 4, the information transmission relationship among the communication module 1, the information processing module 2, the display screen 3, the optical waveguide module 4 and the control module 5 is as follows:

the communication module 1 receives monitoring information of a fire site; the monitoring information comprises sensor information, audio information or video information of a fire fighting site. The information processing module 2 decodes the monitoring information of the fire scene to obtain the decoded monitoring information. The display screen 3 displays the decoded monitoring information to form an image source. The optical waveguide module 4 displays the image source for the fire manager. The fire manager generates a control signal according to the decoded monitoring information through the control module 5. The control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting facilities on a fire-fighting site; the stop signal is used for shutting down the fire-fighting equipment on the fire-fighting site. The control signal is transmitted to the fire fighting equipment in the fire fighting site through the communication module 1.

In summary, the fire protection AR terminal display system provided in the embodiment of the present invention prevents a fire protection manager from going to a monitoring room or a weak current equipment management machine room to check a fire protection site dangerous situation, improves efficiency of the fire protection manager in checking dangerous situation information, and the fire protection manager can start a fire protection facility by using a control signal generated by a control module, thereby improving a response speed of the fire protection manager to the dangerous situation. The fire-fighting manager can judge the dangerous case grade according to the picture of the fire-fighting site, judge whether the dangerous case is a high-grade dangerous case or not, and can remove the fire-fighting alarm if the dangerous case is a low-grade dangerous case such as smoking or misoperation.

The difference between the real-time fire scene of the fire fighting AR terminal display system and the existing fire scene mainly comprises:

the fire protection manager wears the fire protection AR terminal display system, can know the dangerous case information of the fire protection scene in the first time, and can check the dangerous case information of the relevant fire protection scene without any operation. The dangerous case information of the fire-fighting site can be automatically displayed to a fire-fighting AR terminal display system.

The control signal and the fire-fighting emergency plan of the fire-fighting manager can be displayed on the fire-fighting AR terminal display system, so that the misoperation of the fire-fighting manager is avoided.

The fire emergency protocol includes:

the fire-fighting manager knows the form of fire-fighting dangerous case, the cause of the dangerous case, the burning condition of the comburent and the like.

The fire-fighting staff can be distributed and the fire alarm telephone can be dialed to inform the building of emergency evacuation of the fire-fighting dangerous situation.

The power supply of the building in fire-fighting dangerous case is cut off immediately.

The emotion of the personnel in the building is stabilized, the panic treading accident is avoided, the personnel in the building are orderly and organically evacuated to a safety zone, and the personnel in the building are called to participate in the disposal of the fire-fighting dangerous case.

In the shortest time, the inflammable and explosive articles in the building are transferred to the safe position.

When the fire brigade does not reach the fire-fighting dangerous situation site, the fire-fighting staff is organized to carry out fire-fighting operation by using the existing fire-fighting facilities.

The fire situation is immediately reported to the superior department and the staff is organized to investigate the cause of the fire and the subsequent work of ending.

The remote module 6 is described in detail below.

The remote module 6 is used for generating monitoring information of a fire fighting site.

In one example, the remote module 6 is installed in a location prone to an emergency, and when an emergency occurs, the remote module 6 can monitor the emergency and send out monitoring information. The monitoring information comprises dangerous case positions, specific floor room numbers, audio signals, video signals, sensor signals and the like.

Referring to fig. 5, remote module 6 may be mounted, for example, in a box on a wall of the figure.

The remote module 6 is also used to receive control signals.

In one example, the remote module 6 is installed in a location where an emergency is likely to occur, and when the emergency occurs, the remote module 6 receives a control signal to control the fire fighting equipment to be started and shut down.

Referring to fig. 2, the remote module 6 at least includes: a communication unit 61, a sensor unit 62, a camera unit 63 and a fire fighting equipment driving unit 64.

The communication unit 61 is used for sending monitoring information of a fire site or receiving a start signal or a stop signal.

In one example, the communication unit 61 can transmit monitoring information of a fire scene, and can receive a start signal or a stop signal transmitted by the communication module 1.

The sensor unit 62 is connected to the communication unit 61, and the sensor unit 62 is used to monitor a fire scene and generate sensor information.

In one example, the sensor unit 62 monitors smoke, flame, temperature, etc. in the field to generate corresponding sensor information. Sensor unit 62 may be specifically for the especially praying for the G216RF intelligence smoke alarm of okra. The position of the sensor unit 62 can be flexibly designed by those skilled in the art, and will not be described in detail herein.

The camera unit 63 is connected with the communication unit 61, and the camera unit 63 is used for monitoring a fire fighting site and identifying a fire fighting identifier and generating audio information or video information.

In one example, the camera unit 63 monitors smoke, flame, temperature, etc. in the scene to generate corresponding audio or video information, and the camera unit 63 can also identify fire fighting identification of the scene in which the dangerous case occurs. The camera unit 63 may specifically be an NP-FVW100 ann & disappear intelligent camera. Those skilled in the art can flexibly design the position of the camera unit 63, please refer to the above, which is not described herein.

In another example, the sensor unit 62 and the camera unit 63 may be installed at the same location. Different sensor units 62 may be installed when different types of fire hazards need to be monitored. The sensor unit 62 itself has location information of the location where it is located, and transmits the location information to the communication module 1 when a fire danger occurs.

The fire-fighting equipment driving unit 64 is connected with the communication unit 61, and the fire-fighting equipment driving unit 64 is used for starting the fire-fighting equipment according to the starting signal; used for shutting down the fire-fighting equipment according to the stop signal.

In one example, the fire fighting equipment driving unit 64 drives the fire fighting equipment to start extinguishing the dangerous situation upon receiving the opening signal; the fire fighting equipment drive unit 64 shuts down the fire fighting equipment upon receiving the stop signal.

The communication module 1 includes a wireless communication unit, and/or a wired communication unit.

In one example, the communication module 1 includes at least one of a wireless communication unit and a wired communication unit. The wireless communication unit can be a Wi-Fi unit and a Bluetooth unit. The wired communication unit includes, but is not limited to, a USB interface and/or an HDMI interface.

The communication unit 61 includes a wireless communication subunit, and/or a wired communication subunit.

In one example, the communication unit 61 includes at least one of a wireless communication subunit and a wired communication subunit. The wireless communication subunit may specifically be a Wi-Fi unit and a bluetooth unit. The wired communication subunit includes, but is not limited to, a USB interface and/or an HDMI interface.

The optical waveguide module 4 includes an array optical waveguide unit or a hologram optical waveguide unit.

In one example, the optical waveguide module 4 may specifically be an array optical waveguide unit, and the optical waveguide module 4 may also specifically be a holographic optical waveguide unit.

The support 7 is used for mounting a communication module, an information processing module, a display screen, an optical waveguide module and a control module.

In one example, the support 7 may be a spectacle frame in particular. Those skilled in the art can flexibly design the shape and size of the bracket 7 as long as it can be installed with the communication module 1, the information processing module 2, the display screen 3, the optical waveguide module 4 and the control module 5 and can be worn in front of the eyes of the fire manager, and the detailed description is omitted.

In the embodiment of the invention, the fire fighting AR terminal display system can also guide the fire fighting manager to conduct daily fire fighting exercises. The fire fighting AR terminal display system is distributed to each fire fighting manager, is applied to daily training of fire fighting equipment of the fire fighting managers, and improves the safety factor of the fire fighting managers when dangerous situations are eliminated.

When fire-fighting dangerous situations occur, people are in a disordered and panic state, at the moment, a fire-fighting manager can send out an accurate control instruction to make quick and accurate fire-fighting measures, and powerful guarantee is provided for safety of staff and common people on a fire-fighting site. Fire control AR terminal display system can show the fire control emergency plan in the fire control administrator's eyes for the fire control administrator can progressively send control command, take fire control measure according to the fire control emergency plan, makes the fire control administrator commander fire control scene's staff in order calmly.

Referring to fig. 6, when there is no fire-fighting dangerous situation, a fire-fighting manager may perform a training of fire-fighting equipment with the fire-fighting AR terminal display system, in the embodiment of the present invention, taking a fire-fighting rolling door as an example, the fire-fighting AR terminal display system may recognize identifications of the fire-fighting rolling door and a fire-fighting rolling door column, display the fire-fighting rolling door in front of the fire-fighting manager, display a specific position of a floor where the fire-fighting rolling door is located, display a control signal sent to the fire-fighting rolling door, display an open state or a closed state of the fire-fighting rolling door, display a list of fire-fighting facilities, and display a manual closing method of the fire-fighting rolling door, so that the fire-fighting manager may accurately and timely know an operation flow of the fire-fighting facilities.

In other embodiments of the present invention, please refer to fig. 3, when a suspected fire occurs in a fire site, the sensor unit 62 is triggered to generate monitoring information (floor information, position information) of the fire site, the monitoring information of the fire site is sent out through the communication unit 61, the communication module 1 receives the monitoring information of the fire site through the wireless communication unit, the information processing module 2 decodes the monitoring information of the fire site, the decoded monitoring information is sent to the display screen 3 and then transmitted to the optical waveguide module 4 to enter the eyes of a fire manager, and after the fire manager sees the specific information of the fire site, the fire manager judges whether to start the camera unit 63 of the fire site to obtain real-time fire site fire information.

The fire manager sends out a control signal (such as starting the camera unit 63 and starting the fire fighting equipment) through the control module 5, the control signal is transmitted to the information processing module 2, the information processing module 2 decodes the control signal and displays the decoded control signal on the optical waveguide module 4, and then the control signal is transmitted to the camera unit 63 of the remote module 6 and the fire fighting equipment driving unit 64 through the wireless communication unit of the communication module 1.

The camera unit 63 sends monitoring information of the fire scene dangerous real-time picture. After the real-time picture monitoring information is received by the communication module 1, the information processing module 2 processes the real-time picture monitoring information and displays the real-time picture monitoring information to the optical waveguide module 4, so that a fire manager can judge the dangerous case grade and judge whether the dangerous case is a high-grade dangerous case or not. If the fire fighting is in a low-level dangerous situation such as smoking or misoperation, the fire fighting alarm can be relieved. If the fire-fighting emergency situation is judged to be a high-level emergency situation, the fire-fighting emergency situation plan is started, and the fire-fighting equipment driving unit 64 drives the fire-fighting equipment to eliminate the emergency situation and assist the fire-fighting manager in commanding the fire-fighting site.

Referring to fig. 7, an embodiment of the present invention further provides a fire fighting AR terminal display method, including:

step 1: acquiring monitoring information of a fire fighting site; the monitoring information comprises sensor information, audio information or video information of a fire fighting site.

The step 1 can be specifically executed by the communication module 1, and reference may be specifically made to the description of the communication module 1, which is not described herein again.

And 2, step: and decoding the monitoring information of the fire scene to obtain the decoded monitoring information.

The step 2 can be specifically executed by the information processing module 2, and reference can be specifically made to the description of the information processing module 2, which is not described herein again.

And step 3: and displaying the decoded monitoring information to form an image source.

The step 3 can be specifically executed by the display screen 3, and reference can be specifically made to the description of the display screen 3, which is not described herein again.

And 4, step 4: and displaying the image source.

Step 4 can be specifically executed by the optical waveguide module 4, and reference can be specifically made to the description of the optical waveguide module 4, which is not described herein again.

And 5: generating a control signal according to the decoded monitoring information and sending the control signal; the control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting equipment on a fire-fighting site; the stop signal is used to shut down the fire-fighting equipment in the fire-fighting site.

The step 5 can be specifically executed by the control module 5, and reference can be specifically made to the description of the control module 5, which is not described herein again.

Embodiments of the present invention also claim a computer-readable storage medium having stored therein instructions, which, when executed on a computer, cause the computer to perform operations performed by the control module 5.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description.

The principle and implementation of the embodiments of the present invention are explained herein by applying specific examples, and the above descriptions of the embodiments are only used to help understanding the method and the core idea of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the idea of the embodiment of the present invention, the specific implementation and the application range may be changed. In view of the above, the description should not be taken as limiting the embodiments of the invention.

Claims (9)

1. A fire protection AR terminal display system, comprising:

the communication module is used for receiving monitoring information of a fire fighting site or sending a control signal; the monitoring information comprises sensor information, audio information or video information of a fire site;

the information processing module is connected with the communication module and used for decoding the monitoring information of the fire fighting site to obtain the decoded monitoring information;

the display screen is connected with the information processing module and used for displaying the decoded monitoring information to form an image source;

the optical waveguide module is connected with the display screen and is used for displaying the image source;

the control module is connected with the information processing module and used for generating the control signal according to the decoded monitoring information;

the control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting equipment on a fire-fighting site; the stop signal is used for shutting down the fire-fighting equipment on the fire-fighting site.

2. The fire fighting AR terminal display system of claim 1, further comprising a remote module;

the remote module is used for generating monitoring information of the fire fighting site.

3. The fire fighting AR terminal display system of claim 2, wherein the remote module is further configured to receive the control signal.

4. The fire fighting AR terminal display system of claim 2, wherein the remote module comprises:

the communication unit is used for sending monitoring information of the fire fighting site or receiving the starting signal or the stopping signal;

the sensor unit is connected with the communication unit and used for monitoring a fire site and generating the sensor information;

the camera unit is connected with the communication unit and is used for monitoring a fire site and identifying a fire fighting identifier and generating the audio information or the video information;

the fire-fighting equipment driving unit is connected with the communication unit and used for starting the fire-fighting equipment according to the starting signal; for shutting down the fire fighting equipment according to the stop signal.

5. A fire fighting AR terminal display system as recited in claim 1, wherein the communication module comprises a wireless communication unit, and/or a wired communication unit; the communication unit includes a wireless communication subunit, and/or a wired communication subunit.

6. A fire fighting AR terminal display system as recited in claim 1, wherein the optical waveguide module comprises an arrayed optical waveguide unit or a holographic optical waveguide unit.

7. The fire fighting AR terminal display system of claim 1, further comprising a stand; the support is used for installing the communication module, the information processing module, the display screen, the optical waveguide module and the control module.

8. A fire protection AR terminal display method based on the fire protection AR terminal display system of any one of claims 1 to 7, comprising:

acquiring monitoring information of a fire fighting site; the monitoring information comprises sensor information, audio information or video information of a fire fighting site;

decoding the monitoring information of the fire fighting site to obtain decoded monitoring information;

displaying the decoded monitoring information to form an image source;

displaying the image source;

generating a control signal according to the decoded monitoring information, and sending the control signal;

the control signal comprises a start signal or a stop signal; the starting signal is used for starting fire-fighting facilities on a fire-fighting site; the stop signal is used for shutting down the fire-fighting equipment on the fire-fighting site.

9. A computer-readable storage medium having instructions stored thereon, which, when executed on a computer, cause the computer to perform the operations performed by the control module of any of the above.

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