CN109814459B - Facility safety control method and system - Google Patents

Abstract

The embodiment of the application provides a facility safety control method and system. The facility safety management and control system comprises a management and control server and at least one safety service subsystem which is in communication connection with the management and control server and used for providing safety precaution services, and the two-dimensional map image and the three-dimensional scene image of a facility area to be managed and controlled are sent to a user terminal used by a management and control person at present for visual display, so that the management and control person can perform centralized management on each safety service subsystem distributed and arranged in the facility area to be managed and controlled based on the user terminal, the management and control difficulty of the facility area to be managed and controlled is reduced, and the management and control efficiency of the whole safety management and control process is. And the two-dimensional map image records the position distribution information of each safety service subsystem at the facility area to be controlled.

Description

Facility safety control method and system

Technical Field

The application relates to the technical field of facility safety management, in particular to a facility safety management and control method and system.

Background

With the continuous development of scientific technology, facility security management and control technologies for performing security management and control on various large-scale building facilities (such as office buildings, amusement squares and the like) are also greatly improved. The current facility safety management and control technology is generally based on the installation wiring diagram of each safety service system (e.g., video monitoring system, fire alarm system, etc.) in the whole facility area for safety management and control. The difficulty of identification of the installation circuit diagram of each safety service system is high, different safety service systems correspond to different management and control personnel, the management and control personnel can only manage and control the safety service system corresponding to the management and control personnel in the whole management and control process, and meanwhile, after the management and control personnel are very familiar with the installation circuit diagram of the matched safety service system, the operation of service management and control on the safety service system can be completed, so that the problems of high management and control difficulty and low management and control efficiency exist in the existing facility safety management and control technology.

Disclosure of Invention

In order to overcome the above defects in the prior art, an object of the present application is to provide a facility security management and control method and system, where the two-dimensional map image and the three-dimensional scene image of a facility area to be managed and controlled are visually displayed to a manager, and the manager performs centralized management on security service subsystems distributed and arranged in the facility area to be managed and controlled, so as to reduce the management and control difficulty of the facility area to be managed and controlled and improve the management and control efficiency of the whole security management and control process.

In terms of method, an embodiment of the present application provides a facility security management and control method, which is applied to a facility security management and control system, where the facility security management and control system includes a management and control server and at least one security service subsystem, communicatively connected to the management and control server, for providing security services, and the facility security management and control method includes:

the management and control server receives a safety management and control request aiming at a facility area to be managed and controlled from a user terminal, and sends a stored two-dimensional map image corresponding to the facility area to be managed and controlled to the user terminal for displaying according to the safety management and control request, wherein the two-dimensional map image records position distribution information of each safety business subsystem in the facility area to be managed and controlled;

the management and control server receives a target management and control request aiming at a target safety service subsystem from the user terminal, extracts a three-dimensional scene image of a setting area where the three-dimensional model of the target safety service subsystem is located from a three-dimensional scene model corresponding to the facility area to be managed and controlled according to the target management and control request, and sends the three-dimensional scene image to the user terminal for displaying, wherein the three-dimensional model of each safety service subsystem is correspondingly distributed and set in the three-dimensional scene model according to real distribution setting information;

the management and control server receives a service management and control instruction aiming at the target security service subsystem from the user terminal and sends the service management and control instruction to the target security service subsystem;

the target security service subsystem executes the corresponding security service according to the received service management and control instruction, and feeds back the corresponding service execution result to the management and control server;

and the management and control server performs service simulation on the three-dimensional model of the target safety service subsystem in the three-dimensional scene model according to the service execution result and synchronously updates the service simulation result into the three-dimensional scene image displayed by the user terminal.

As for a system, an embodiment of the present application provides a facility security management and control system, where the facility security management and control system includes a management and control server and at least one security service subsystem, communicatively connected to the management and control server, for providing security services;

the management and control server is used for receiving a safety management and control request aiming at a facility area to be managed and controlled from a user terminal, and sending a stored two-dimensional map image corresponding to the facility area to be managed and controlled to the user terminal for displaying according to the safety management and control request, wherein the two-dimensional map image records position distribution information of each safety service subsystem in the facility area to be managed and controlled;

the management and control server is further configured to receive a target management and control request from the user terminal for a target security service subsystem, extract a three-dimensional scene image of a setting area where the three-dimensional model of the target security service subsystem is located from a three-dimensional scene model corresponding to the facility area to be managed and controlled according to the target management and control request, and send the three-dimensional scene image to the user terminal for display, where the three-dimensional model of each security service subsystem is correspondingly distributed and set in the three-dimensional scene model according to real distribution setting information;

the management and control server is further configured to receive a service management and control instruction from the user terminal for the target security service subsystem, and send the service management and control instruction to the target security service subsystem;

the target security service subsystem is used for executing the corresponding security service according to the received service management and control instruction and feeding back the corresponding service execution result to the management and control server;

and the management and control server is further used for performing service simulation on the three-dimensional model of the target security service subsystem in the three-dimensional scene model according to the service execution result, and synchronously updating the service simulation result into the three-dimensional scene image displayed by the user terminal.

Compared with the prior art, the facility safety control method and the facility safety control system provided by the embodiment of the application have the following beneficial effects: the facility safety management and control method can visually display the two-dimensional map image and the three-dimensional scene image of the facility area to be managed and controlled to management and control personnel, and enables the management and control personnel to perform centralized management on each safety service subsystem distributed and arranged in the facility area to be managed and controlled, so that the management and control difficulty of the facility area to be managed and controlled is reduced, and the management and control efficiency of the whole safety management and control process is improved. Firstly, the method receives a safety control request aiming at a facility area to be controlled from a user terminal through a control server, and sends a stored two-dimensional map image corresponding to the facility area to be controlled to the user terminal for displaying; then, the method receives a target control request aiming at a target safety service subsystem from the user terminal through a control server, extracts a three-dimensional scene image of a setting area where a three-dimensional model of the target safety service subsystem is located from a three-dimensional scene model corresponding to the facility area to be controlled, and sends the three-dimensional scene image to the user terminal for displaying; secondly, the method receives a service control instruction aiming at the target security service subsystem from the user terminal through the control server and sends the service control instruction to the target security service subsystem; then, the method executes the corresponding security service according to the received service management and control instruction through the target security service subsystem, and feeds back the corresponding service execution result to the management and control server; finally, the method carries out service simulation on the three-dimensional model of the target safety service subsystem in the three-dimensional scene model according to the service execution result at the management and control server, and synchronously updating the service simulation result to the three-dimensional scene image displayed by the user terminal, so that the management and control personnel can intuitively know the two-dimensional map image and the three-dimensional scene image of the facility area to be managed and controlled by accessing the management and control server through the user terminal, and issuing a safety control instruction corresponding to the target safety service subsystem based on the three-dimensional scene image, the management and control server is used for carrying out service management and control on target safety service subsystems in all safety service subsystems, so that centralized management and control on each safety service subsystem are realized, the management and control difficulty of a facility area to be managed and controlled is reduced, and the management and control efficiency of the whole safety management and control process is improved.

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

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments are briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope of the claims of the present application, and it is obvious for those skilled in the art that other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a block diagram illustrating a facility safety control system according to an embodiment of the present disclosure;

FIG. 2 is a block diagram of a secure services subsystem shown in FIG. 1 according to an embodiment of the present application;

fig. 3 is a schematic flow chart of a facility security control method according to an embodiment of the present application;

fig. 4 is a second schematic flow chart of a facility security control method according to an embodiment of the present application.

Icon: 10-facility safety control system; 100-a management and control server; 200-a secure services subsystem; 300-a user terminal; 210-a control device; 220-service execution device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. 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 application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Fig. 1 is a block diagram of a facility safety management and control system 10 according to an embodiment of the present application. In the embodiment of the present application, the facility security management and control system 10 is used for performing security service management and control on a facility area to be managed and controlled, wherein the facility security management and control system 10 includes a management and control server 100 and at least one security service subsystem 200 for providing security services, the management and control server 100 is connected to each of the safety service subsystems 200 in a communication manner, a management and control person can obtain a two-dimensional map image and a three-dimensional scene image corresponding to a facility area to be managed and controlled from the management and control server 100 through a user terminal 300 connected to the management and control server 100 in a communication manner to display the two-dimensional map image and the three-dimensional scene image, and enables the management and control personnel to remotely manage and control the target security service subsystems 200 respectively arranged in the facility areas to be managed and controlled, therefore, centralized management and control of each safety service subsystem 200 are realized, the management and control difficulty of the facility area to be managed and controlled is reduced, and the management and control efficiency of the whole safety management and control process is improved.

The two-dimensional map image corresponding to the facility area to be controlled records position distribution information of each safety service subsystem 200 in the facility area to be controlled, and the position distribution information is used for representing the map distribution situation of the corresponding safety service subsystem 200 in the facility area to be controlled; the three-dimensional scene image corresponding to the facility area to be controlled is a three-dimensional image corresponding to a setting area where the three-dimensional model of the safety service subsystem 200 is located when the three-dimensional model of a certain safety service subsystem 200 is set in the three-dimensional scene model corresponding to the facility area to be controlled according to real distribution position information, and the real distribution setting information is real installation condition information of the corresponding safety service subsystem 200 in the facility area to be controlled.

In this embodiment, the management and control server 100 stores a two-dimensional map image and a three-dimensional scene model corresponding to the facility area to be managed and a three-dimensional model corresponding to each of the security service subsystems 200 in communication connection with the management and control server 100, where the three-dimensional model corresponding to each of the security service subsystems 200 is distributed in the three-dimensional scene model of the facility area to be managed according to the real distribution setting information.

In an implementation manner of this embodiment, the management and control server 100 may send a service management and control instruction to a certain security service subsystem 200 by itself, so that the security service subsystem 200 executes a corresponding security service according to the service management and control instruction, and perform service simulation on a three-dimensional model of the security service subsystem 200 in the three-dimensional scene model according to a service execution result corresponding to the service management and control instruction and fed back by the security service subsystem 200, thereby synchronously simulating a real service execution condition of the security service subsystem 200 in the management and control server 100.

Referring to fig. 2, a block diagram of the security service subsystem 200 shown in fig. 1 according to an embodiment of the present application is shown. In this embodiment of the present application, each security service subsystem 200 includes a control device 210 and at least one service execution device 220, where the control device 210 is in communication connection with the at least one service execution device 220, and is configured to control a respective working state of the at least one service execution device 220, where the service execution device 220 is configured to execute a security service.

In this embodiment, the control device 210 in each of the secure service subsystems 200 is communicatively connected to the management and control server 100, and is configured to perform data interaction with the management and control server 100. The control device 210 may be, but is not limited to, a server, a switch, a system host device, and the like.

In this embodiment, the service execution devices 220 under the same security service subsystem 200 may not belong to the same kind of electronic device. For example, when a certain security service subsystem 200 is a fire alarm system, the types of service execution devices 220 under the security service subsystem 200 include an alarm device and a fire detector.

In this embodiment, the types of at least one of the secure service subsystems 200 communicatively connected to the management server 100 may be the same or different. At least one of the security service subsystems 200 may include any one or a combination of a video monitoring system, an access control management system, a facility intrusion alarm system, a voice command scheduling system, a fire alarm system, an environment monitoring system, and an equipment monitoring system.

When a certain security service subsystem 200 is a video monitoring system, the service execution device 220 under the security service subsystem 200 may include a camera, an installation cradle head, a camera lighting lamp, and the like, and the service management and control instruction issued by the user terminal 300 to the security service subsystem 200 may implement at least one of functions of camera direction adjustment, video switching monitoring, video playback, cradle head control, and the like.

When a certain security service subsystem 200 is an access control management system, the service execution device 220 under the security service subsystem 200 may include an access control card reader and an access control controller, and the service management and control command issued by the user terminal 300 to the security service subsystem 200 may implement at least one of functions of door open and close state display, remote door closing, access control data statistics, access control controller parameter setting, and the like.

When a certain security service subsystem 200 is a facility intrusion alarm system, the service execution device 220 under the security service subsystem 200 may include a dual-technology detector, a device box tamper switch, and an audible and visual alarm, and the service management and control command issued by the user terminal 300 to the security service subsystem 200 may implement at least one of functions of alarm signal positioning display, alarm data recording, alarm control parameter setting, and the like.

When a certain security service subsystem 200 is a voice-directed dispatch system, the service execution device 220 under the security service subsystem 200 may include a plurality of dispatch telephones, and the service management and control instruction issued by the user terminal 300 to the security service subsystem 200 may implement a connection function or a disconnection function between the plurality of dispatch telephones.

When a certain security service subsystem 200 is a fire alarm system, the service execution device 220 under the security service subsystem 200 may include an alarm device and a fire detector (including a smoke detector, a temperature detector, a flame detector, etc.), and the service management and control instruction issued by the user terminal 300 to the security service subsystem 200 may implement at least one of the functions of fire alarm control, alarm signal positioning display, alarm data recording, etc.

When a certain security service subsystem 200 is an environment monitoring system, the service execution device 220 under the security service subsystem 200 may include a temperature detection device, a humidity detection device, a radiation detection device, a wind speed detection device, a humidity regulation and control device, a temperature regulation and control device, a radiation purification device, and the like, and the service management and control instruction issued by the user terminal 300 to the security service subsystem 200 may implement an environment detection function and an environment regulation and control function.

When a certain security service subsystem 200 is an equipment monitoring system, the service execution equipment 220 under the security service subsystem 200 may include an equipment state detection device, and a service management and control instruction issued by the user terminal 300 to the security service subsystem 200 may implement a function of detecting an operation state of each electronic equipment.

Fig. 3 is a schematic flow chart of a facility security control method according to an embodiment of the present application. In the embodiment of the present application, the facility security management and control method is applied to the facility security management and control system 10, the facility security management and control system 10 includes a management and control server 100 and at least one security service subsystem 200 for providing security services, and the specific processes and steps of the facility security management and control method shown in fig. 3 are described in detail below.

In step S310, the management and control server 100 receives a security management and control request for a facility area to be managed from the user terminal 300, and sends a stored two-dimensional map image corresponding to the facility area to be managed to the user terminal 300 for display according to the security management and control request.

In this embodiment, a management and control person may obtain a two-dimensional map image of a facility area to be managed and controlled, which is stored in the management and control server 100 and corresponds to a security management and control request, by sending the security management and control request to the management and control server 100 through the user terminal 300, so as to determine a target security service subsystem 200 that needs to be currently managed and controlled according to the location distribution information of each security service subsystem 200, at the facility area to be managed and controlled, exposed in the two-dimensional map image of the facility area to be managed and controlled.

In step S320, the management and control server 100 receives a target management and control request from the user terminal 300 for the target security service subsystem 200, extracts a three-dimensional scene image of a setting area where the three-dimensional model of the target security service subsystem 200 is located from the three-dimensional scene model corresponding to the facility area to be managed according to the target management and control request, and sends the three-dimensional scene image to the user terminal 300 for display.

In this embodiment, when a manager determines a certain security service subsystem 200 as the target security service subsystem 200 from the two-dimensional map image at the user terminal 300, the manager may send a target management and control request for the target security service subsystem 200 to the management and control server 100 through the user terminal 300. Then, the management and control server 100 extracts a three-dimensional scene image of the three-dimensional model of the target security service subsystem 200 at the corresponding setting area from the three-dimensional scene model corresponding to the facility area to be managed, and sends the three-dimensional scene image to the user terminal 300 for display, so that the management and control staff can know the current service execution condition of the target security service subsystem 200 through the three-dimensional scene image displayed by the user terminal 300, and thus issue a corresponding service management and control instruction for the target security service subsystem 200. The three-dimensional scene image includes a three-dimensional model image of the target security service subsystem 200 and a three-dimensional image of the environment surrounding the target security service subsystem 200.

In an implementation manner of this embodiment, when the target management and control request is to manage and control a certain service execution device 220 under the target security service subsystem 200, the service execution device 220 is the target service execution device 220 corresponding to the target management and control request, and the step of extracting, according to the target management and control request, a three-dimensional scene image of a setting area where a three-dimensional model of the target security service subsystem 200 is located from a three-dimensional scene model corresponding to the facility area to be managed and controlled includes:

analyzing the target management and control request to obtain device information of the target service execution device 220 corresponding to the target security service subsystem 200, which is included in the target management and control request;

positioning the three-dimensional model of the target service execution device 220 in the three-dimensional scene model corresponding to the facility area to be controlled according to the device information;

and extracting a three-dimensional scene image of a setting area where the three-dimensional model of the target service execution device 220 is located from the three-dimensional scene model according to the positioning result, wherein the extracted three-dimensional scene image comprises the three-dimensional model image of the target service execution device 220 and a three-dimensional image of the surrounding environment of the target service execution device 220.

Wherein the device information is used to indicate the identity information of the corresponding service execution device 220 in the target secure service subsystem 200. When the management and control server 100 obtains the three-dimensional scene image of the target service execution device 220 corresponding to the target management and control request, the management and control server 100 sends the three-dimensional scene image to the user terminal 300 for display, so that the management and control staff can know the current service execution condition of the target service execution device 220 under the target security service subsystem 200 through the three-dimensional scene image displayed by the user terminal 300, and thus issue a corresponding service management and control instruction for the target service execution device 220.

In step S330, the management and control server 100 receives a service management and control instruction from the user terminal 300 for the target security service subsystem 200, and sends the service management and control instruction to the target security service subsystem 200.

In this embodiment, when a management and control person sends a service management and control instruction for the target security service subsystem 200 to the management and control server 100 through the user terminal 300, the management and control server 100 sends the received service management and control instruction to the control device 210 under the target security service subsystem 200, so that the control device 210 controls at least one service execution device 220 communicatively connected to the control device 210 to execute a corresponding security service according to the service management and control instruction.

In step S340, the target security service subsystem 200 executes the corresponding security service according to the received service management and control instruction, and feeds back the corresponding service execution result to the management and control server 100.

In this embodiment, after the control device 210 under the target security service subsystem 200 receives the service management and control instruction, the control device 210 controls, according to the service management and control instruction, the service execution device 220 corresponding to the service management and control instruction to execute a corresponding security service. Then, the control device 210 acquires the current service execution result of each controlled service execution device 220, and summarizes the currently acquired service execution result of each service execution device 220 and sends the summarized result to the management and control server 100.

In an implementation manner of this embodiment, when the service management and control instruction received by the target security service subsystem 200 directly points to a certain target service execution device 220, the step of the target security service subsystem 200 executing the corresponding security service according to the received service management and control instruction includes:

the control device 210 analyzes the received service management and control instruction to obtain device information of the target service execution device 220 and service content information to be executed, which are included in the service management and control instruction;

the control device 210 controls, according to the content information of the service to be executed, the target service execution device 220 corresponding to the device information to execute the corresponding security service, so as to obtain a service execution result fed back by the target service execution device 220.

In step S350, the management and control server 100 performs service simulation on the three-dimensional model of the target security service subsystem 200 in the three-dimensional scene model according to the service execution result, and synchronously updates the service simulation result to the three-dimensional scene image displayed by the user terminal 300.

In this embodiment, after the management and control server 100 receives the service execution result from the target security service subsystem 200, the three-dimensional model of the target security service subsystem 200 is subjected to service simulation in the three-dimensional scene model corresponding to the facility area to be managed and controlled according to the service execution result, so as to truly simulate the actual service execution condition of the target security service subsystem 200 in the three-dimensional scene model. Then, while performing service simulation on the three-dimensional model of the target security service subsystem 200, the management and control server 100 may update the service simulation result of the entire service simulation process to the currently displayed three-dimensional scene image of the user terminal 300, so that the management and control personnel can intuitively know the service execution condition of the target security service subsystem 200 through the user terminal 300, thereby reducing the management and control difficulty of the facility area to be managed and controlled and improving the management and control efficiency of the entire security management and control process through the visualization of the management and control process and the centralized management and control of the service. A

After the management and control personnel complete the management and control process of a certain target security service subsystem 200, other security service subsystems 200 may be selected from the two-dimensional map image displayed by the user terminal 300 to perform further three-dimensional scene image acquisition operation, so that security service management and control are performed based on the acquired three-dimensional scene image.

Fig. 4 is a second schematic flow chart of a facility security control method according to an embodiment of the present application. In the embodiment of the present application, the facility safety control method may further include step S307, step S308, and step S309.

In step S307, the management and control server 100 obtains the real environment information of the facility area to be managed and controlled, the real distribution setting information of each security service subsystem 200 in the facility area to be managed and the device composition information of each security service subsystem 200.

In this embodiment, the device composition information is used to represent the composition of each electronic device included in the corresponding security service subsystem 200, and the management and control server 100 may create a three-dimensional model of one security service subsystem 200 according to the device composition information of the security service subsystem 200, where the created three-dimensional model of the security service subsystem 200 includes the three-dimensional model of each electronic device included in the security service subsystem 200. The real environment information is used to represent the specific distribution of each facility in the facility area to be controlled, and the control server 100 may create a three-dimensional scene model of the facility area to be controlled according to the real environment information of the facility area to be controlled, and create a two-dimensional map of the facility area to be controlled.

Step S308, the management and control server 100 creates a two-dimensional map image corresponding to the facility area to be managed and controlled according to the real environment information and the real distribution setting information of each safety service subsystem 200.

In this embodiment, the management and control server 100 may create a two-dimensional map of the facility area to be managed according to the real environment information of the facility area to be managed, and perform position marking on each security service subsystem 200 in the two-dimensional map according to the corresponding real distribution setting information, so as to obtain the two-dimensional map image including the position distribution information of each security service subsystem 200 in the facility area to be managed.

Step S309, the management and control server 100 creates a three-dimensional scene model corresponding to the facility area to be managed and controlled according to the real environment information, and creates a three-dimensional model of each security service subsystem 200 in the three-dimensional scene model according to the device composition information and the real distribution setting information of each security service subsystem 200.

In this embodiment, the management and control server 100 may create a three-dimensional scene model of the facility area to be managed and controlled according to the acquired real environment information of the facility area to be managed and controlled, create a three-dimensional model of each security service subsystem 200 according to the device composition information of each security service subsystem 200, and then set a corresponding three-dimensional model in the three-dimensional scene model according to the real distribution setting information distribution of each security service subsystem 200. After the three-dimensional model of each security service subsystem 200 is set in the three-dimensional scene model, the management and control server 100 performs service simulation on the matched three-dimensional model according to the current real service execution condition of each security service subsystem 200, so that each three-dimensional model in the three-dimensional scene model is matched with the security service subsystem 200 in the real environment.

In this embodiment of the application, the management and control server 100 is configured to receive a security management and control request for a facility area to be managed and controlled from a user terminal 300, and send a stored two-dimensional map image corresponding to the facility area to be managed and controlled to the user terminal 300 for display according to the security management and control request, where the two-dimensional map image records location distribution information of each security service subsystem 200 at the facility area to be managed and controlled.

The management and control server 100 is further configured to receive a target management and control request from the user terminal 300 for the target security service subsystem 200, extract a three-dimensional scene image of a setting area where the three-dimensional model of the target security service subsystem 200 is located from the three-dimensional scene model corresponding to the facility area to be managed and controlled according to the target management and control request, and send the three-dimensional scene image to the user terminal 300 for display, where the three-dimensional model of each security service subsystem 200 is correspondingly distributed in the three-dimensional scene model according to the real distribution setting information.

The management and control server 100 is further configured to receive a service management and control instruction from the user terminal 300 for the target secure service subsystem 200, and send the service management and control instruction to the target secure service subsystem 200.

The target security service subsystem 200 is configured to execute a corresponding security service according to the received service management and control instruction, and feed back a corresponding service execution result to the management and control server 100.

The management and control server 100 is further configured to perform service simulation on the three-dimensional model of the target security service subsystem 200 in the three-dimensional scene model according to the service execution result, and synchronously update the service simulation result to the three-dimensional scene image displayed by the user terminal 300.

The management and control server 100 may execute the steps S310, S320, S330 and S350 shown in fig. 3, and the secure service subsystem 200 may execute the step S340 shown in fig. 3, where the specific execution process may refer to the above detailed description of the steps S310, S320, S330, S340 and S350.

In this embodiment, the management and control server 100 is further configured to obtain real environment information of a facility area to be managed and controlled, real distribution setting information of each security service subsystem 200 in the facility area to be managed and device composition information of each security service subsystem 200.

The management and control server 100 is further configured to create a two-dimensional map image corresponding to the facility area to be managed and controlled according to the real environment information and the real distribution setting information of each safety service subsystem 200.

The management and control server 100 is further configured to create a three-dimensional scene model corresponding to the facility area to be managed and controlled according to the real environment information, and create a three-dimensional model of each security service subsystem 200 in the three-dimensional scene model according to the device composition information and the real distribution setting information of each security service subsystem 200.

The management and control server 100 may execute steps S307, S308, and S309 shown in fig. 4, and the specific execution process may refer to the detailed description of steps S307, S308, and S309.

In summary, in the facility safety management and control method and system provided in the embodiment of the present application, the facility safety management and control method may visually display the two-dimensional map image and the three-dimensional scene image of the facility area to be managed and controlled to the management and control staff, and enable the management and control staff to perform centralized management on each security service subsystem distributed and set in the facility area to be managed and controlled, so as to reduce the management and control difficulty of the facility area to be managed and control, and improve the management and control efficiency of the whole safety management and control process. Firstly, the method receives a safety control request aiming at a facility area to be controlled from a user terminal through a control server, and sends a stored two-dimensional map image corresponding to the facility area to be controlled to the user terminal for displaying; then, the method receives a target control request aiming at a target safety service subsystem from the user terminal through a control server, extracts a three-dimensional scene image of a setting area where a three-dimensional model of the target safety service subsystem is located from a three-dimensional scene model corresponding to the facility area to be controlled, and sends the three-dimensional scene image to the user terminal for displaying; secondly, the method receives a service control instruction aiming at the target security service subsystem from the user terminal through the control server and sends the service control instruction to the target security service subsystem; then, the method executes the corresponding security service according to the received service management and control instruction through the target security service subsystem, and feeds back the corresponding service execution result to the management and control server; finally, the method carries out service simulation on the three-dimensional model of the target safety service subsystem in the three-dimensional scene model according to the service execution result at the management and control server, and synchronously updating the service simulation result to the three-dimensional scene image displayed by the user terminal, so that the management and control personnel can intuitively know the two-dimensional map image and the three-dimensional scene image of the facility area to be managed and controlled by accessing the management and control server through the user terminal, and issuing a safety control instruction corresponding to the target safety service subsystem based on the three-dimensional scene image, the management and control server is used for carrying out service management and control on target safety service subsystems in all safety service subsystems, so that centralized management and control on each safety service subsystem are realized, the management and control difficulty of a facility area to be managed and controlled is reduced, and the management and control efficiency of the whole safety management and control process is improved.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (8)

1. A facility safety management and control method, characterized in that it is applied to a facility safety management and control system, wherein the facility safety management and control system comprises a management and control server and at least one security service subsystem for providing security protection services that is communicatively connected to the management and control server , the facility safety management and control method includes: The management and control server receives the safety management and control request for the facility area to be managed and controlled from the user terminal, and sends the stored two-dimensional map image corresponding to the facility area to be managed and controlled to the user terminal for display according to the safety management and control request, Wherein the two-dimensional map image records the location distribution information of each security service subsystem in the to-be-controlled facility area; The management and control server receives the target management and control request for the target security service subsystem from the user terminal, and extracts the target security service subsystem from the three-dimensional scene model corresponding to the facility area to be managed and controlled according to the target management and control request. The three-dimensional scene image of the setting area where the three-dimensional model of the system is located, and the three-dimensional scene image is sent to the user terminal for display, wherein the three-dimensional model of each security service subsystem is set in the three-dimensional scene model according to the actual distribution information. Corresponding distribution settings; The management and control server receives a service management and control instruction for the target security service subsystem from the user terminal, and sends the service management and control instruction to the target security service subsystem; The target security service subsystem executes the corresponding security protection service according to the received service control instruction, and feeds back the corresponding service execution result to the control server; The management and control server performs service simulation on the 3D model of the target security service subsystem in the 3D scene model according to the service execution result, and synchronously updates the service simulation result to the 3D scene image displayed by the user terminal middle; At least one of the security service subsystems includes any one or a combination of a video surveillance system, an access control management system, a facility intrusion alarm system, a voice command and dispatch system, a fire alarm system, an environmental monitoring system, and an equipment monitoring system. 2 . The facility safety management and control method according to claim 1 , wherein each of the safety service subsystems comprises a control device and at least one service execution device communicatively connected to the control device, wherein the control device is used for Controlling at least one of the service execution devices, the service execution devices are configured to execute corresponding security protection services; The step of extracting, from the 3D scene model corresponding to the area of the facility to be managed and controlled according to the target management and control request, the 3D scene image of the area where the 3D model of the target security service subsystem is located includes: Analyzing the target management and control request to obtain the device information of the target service execution device corresponding to the target security service subsystem included in the target management and control request; positioning the 3D model of the target service execution device in the 3D scene model corresponding to the to-be-controlled facility area according to the device information; The 3D scene image of the setting area where the 3D model of the target service execution device is located is extracted from the 3D scene model according to the positioning result, wherein the extracted 3D scene image includes the 3D model image of the target service execution device and a three-dimensional image of the surrounding environment of the target service execution device. 3 . The facility safety management and control method according to claim 2 , wherein the step of the target safety service subsystem executing the corresponding safety protection service according to the received service management and control instruction comprises: 3 . The control device parses the received service management and control instruction, and obtains device information of the target service execution device and to-be-executed service content information included in the service management and control instruction; The control device controls the target service execution device corresponding to the device information to execute the corresponding security protection service according to the to-be-executed service content information, and obtains a service execution result fed back by the target service execution device. 4. The facility safety management and control method according to any one of claims 1-3, wherein the facility safety management and control method further comprises: The management and control server obtains the real environment information of the facility area to be managed and controlled, the real distribution setting information of each security service subsystem in the facility area to be managed and controlled, and the equipment composition information of each security service subsystem; The management and control server creates a two-dimensional map image corresponding to the to-be-controlled facility area according to the real environment information and the real distribution setting information of each security service subsystem; The management and control server creates a three-dimensional scene model corresponding to the facility area to be controlled and controlled according to the real environment information, and creates the three-dimensional scene model according to the equipment composition information and real distribution setting information of each security service subsystem. The three-dimensional model of each security service subsystem is obtained. 5. A facility safety management and control system, characterized in that the facility safety management and control system comprises a management and control server and at least one security service subsystem for providing security protection services that is communicatively connected to the management and control server; The management and control server is configured to receive a safety management and control request for the facility area to be managed and controlled from the user terminal, and send the stored two-dimensional map image corresponding to the facility area to be managed and controlled to the user terminal according to the safety management and control request Displaying, wherein the two-dimensional map image records the location distribution information of each security service subsystem in the area of the facility to be controlled; The management and control server is further configured to receive a target management and control request for the target security service subsystem from the user terminal, and according to the target management and control request, extract the The 3D scene image of the setting area where the 3D model of the target security service subsystem is located, and the 3D scene image is sent to the user terminal for display, wherein the 3D model of each security service subsystem is set in the The corresponding distribution settings in the 3D scene model; The management and control server is further configured to receive a service management and control instruction for the target security service subsystem from the user terminal, and send the service management and control instruction to the target security service subsystem; The target security service subsystem is configured to execute the corresponding security protection service according to the received service management and control instruction, and feed back the corresponding service execution result to the management and control server; The management and control server is further configured to perform service simulation on the 3D model of the target security service subsystem in the 3D scene model according to the service execution result, and synchronously update the service simulation result to the user terminal for display in the 3D scene image; At least one of the security service subsystems includes any one or a combination of a video surveillance system, an access control management system, a facility intrusion alarm system, a voice command and dispatch system, a fire alarm system, an environmental monitoring system, and an equipment monitoring system. 6. The facility safety management and control system according to claim 5, wherein each of the safety service subsystems comprises a control device and at least one service execution device communicatively connected to the control device, wherein the control device is used for Controlling at least one of the service execution devices, the service execution devices are configured to execute corresponding security protection services; The management and control server extracts, from the three-dimensional scene model corresponding to the facility area to be controlled and controlled according to the target management and control request, a three-dimensional scene image of the setting area where the three-dimensional model of the target security service subsystem is located, including: Analyzing the target management and control request to obtain the device information of the target service execution device corresponding to the target security service subsystem included in the target management and control request; positioning the 3D model of the target service execution device in the 3D scene model corresponding to the to-be-controlled facility area according to the device information; The 3D scene image of the setting area where the 3D model of the target service execution device is located is extracted from the 3D scene model according to the positioning result, wherein the extracted 3D scene image includes the 3D model image of the target service execution device and a three-dimensional image of the surrounding environment of the target service execution device. 7 . The facility safety management and control system according to claim 6 , wherein the target safety service subsystem executes the corresponding safety protection service according to the received service management and control instruction, comprising: 8 . The control device parses the received service management and control instruction, and obtains device information of the target service execution device and to-be-executed service content information included in the service management and control instruction; The control device controls the target service execution device corresponding to the device information to execute the corresponding security protection service according to the to-be-executed service content information, and obtains a service execution result fed back by the target service execution device. 8. The facility safety management and control system according to any one of claims 5-7, characterized in that, The management and control server is also used to obtain the real environment information of the facility area to be managed and controlled, the real distribution setting information of each security service subsystem in the facility area to be controlled and controlled, and the equipment composition information of each security service subsystem ; The management and control server is further configured to create a two-dimensional map image corresponding to the to-be-controlled facility area according to the real environment information and the real distribution setting information of each security service subsystem; The management and control server is further configured to create a three-dimensional scene model corresponding to the facility area to be controlled and controlled according to the real environment information, and in the three-dimensional scene model, according to the equipment composition information and real information of each security service subsystem. The distribution setup information creates a three-dimensional model of each security service subsystem.

Images