CN115907428A - Distributed city safety brain system - Google Patents

Abstract

The application relates to a distributed urban safety brain system, which comprises a central emergency command platform and a side emergency command platform; when the side emergency command platform and the central emergency command platform are in normal communication, the side emergency command platform acquires risk early warning information of the side subsystem and sends the risk early warning information to the central emergency command platform; the central emergency command platform generates an emergency command instruction based on the risk early warning information, and sends the emergency command instruction to the side emergency command platform so that the side emergency command platform executes emergency command operation based on the emergency command instruction; when the communication between the side emergency command platform and the center emergency command platform is interrupted, the side emergency command platform is used as a new center emergency command platform, an emergency command instruction is directly generated based on the risk early warning information, and emergency command operation is executed based on the emergency command instruction. The method and the device have the advantages of improving reliability of urban emergency safety early warning and further guaranteeing urban safety.

Description

Distributed city safety brain system

Technical Field

The application relates to the technical field of urban emergency safety systems, in particular to a distributed urban safety brain system.

Background

The city emergency safety system is a unified command and dispatch system which brings government departments such as public security, traffic, communication, emergency treatment, electric power, water conservancy, earthquake, civil air defense, municipal administration and the like into a unified command and dispatch system, and an information system which processes city special, emergency and emergency events and provides social emergency rescue services for the public, realizes unified command among cross-region, cross-department and cross-police, and provides powerful guarantee for the public safety of the city, wherein the unified command, the quick response, the unified emergency and the united action are realized.

The general urban safety system is independently built by each department, a unified technical architecture, a unified data standard and a unified technical interface standard do not exist, data cannot be shared among the systems of each department, and information interaction is difficult, so that an efficient emergency rescue system and effective emergency preparation are difficult to form.

In order to solve the problems, a centralized safety supervision and emergency command platform is designed for individual regions based on an urban operation center, all side emergency command platforms in the platform are attached to a central emergency command platform, once the central emergency command platform is paralyzed, the complete paralysis of the whole urban emergency command system can be caused, which is fatal to urban emergency early warning, and therefore the urban safety cannot be guaranteed.

Disclosure of Invention

In order to improve the reliability of city emergency safety early warning and further ensure city safety, the application provides a distributed city safety brain system.

In a first aspect, the application provides a distributed city safety brain system, which adopts the following technical scheme:

a distributed urban safety brain system comprises a central emergency command platform and a side emergency command platform;

when the side emergency command platform and the central emergency command platform are in normal communication, the side emergency command platform acquires risk early warning information of a side subsystem and sends the risk early warning information to the central emergency command platform;

the central emergency command platform generates an emergency command instruction based on the risk early warning information, and sends the emergency command instruction to the side emergency command platform so that the side emergency command platform executes emergency command operation based on the emergency command instruction;

and when the communication between the side emergency command platform and the central emergency command platform is interrupted, taking the side emergency command platform as a new central emergency command platform, directly generating an emergency command instruction based on the risk early warning information, and executing emergency command operation based on the emergency command instruction.

By adopting the technical scheme, when the communication between the side emergency command platform and the central emergency command platform is interrupted due to abnormal conditions, the side emergency command platform is used as a new central emergency command platform to acquire the risk early warning information of the side subsystem for analysis; when emergency operation is needed, the side emergency command platform can directly generate an emergency command instruction so as to execute the emergency operation according to the emergency command instruction. Compared with the prior art, the side emergency command platform can automatically start emergency operation under the condition of abnormal communication, so that the reliability of urban emergency safety early warning is improved, and further urban safety is guaranteed.

Optionally, the system further includes an information communication module, where the information communication module is configured to construct a command information network based on a distributed soft bus technology, and based on the command information network, the risk early warning information can be transmitted from the side emergency command platform to the central emergency command platform.

By adopting the technical scheme, the distributed soft bus technology has the characteristics of high bandwidth and low time delay, so that the reliability of data transmission of the command information network is improved.

Optionally, the information communication module includes an information transmission unit and an information display unit;

the information transmission unit is used for constructing a command information network based on a distributed soft bus technology;

the information display unit is used for visually displaying the risk early warning information based on the command information network and a preset display interface.

By adopting the technical scheme, the risk early warning information is displayed, so that the risk early warning information can be conveniently checked and inquired, and further decision command is facilitated.

Optionally, the central emergency command platform includes a central command module and a data storage module;

when the side emergency command platform and the central emergency command platform are in normal communication, the data storage module stores the risk early warning information transmitted by the side emergency command platform;

the central command module is used for generating an emergency command instruction based on the risk early warning information so that the side command platform executes emergency command operation based on the emergency command instruction.

By adopting the technical scheme, the risk early warning information is stored, so that the risk early warning information can be conveniently called and inquired, and further the emergency command is convenient.

Optionally, the side emergency command platform includes a data temporary storage module;

when the communication between the side emergency command platform and the central emergency command platform is interrupted, the data temporary storage module is used for temporarily storing the risk early warning information acquired by the side emergency command platform;

when the communication between the side emergency general command platform and the center emergency command platform is recovered, the data temporary storage module sends the risk early warning information to the center emergency command platform through the information communication module, so that the data storage module stores the risk early warning information.

By adopting the technical scheme, the possibility of losing related data of the risk early warning information of the side emergency command platform is reduced.

Optionally, the data storage module is configured to store risk early warning information based on a distributed data management technology, and the plurality of the side emergency command platforms are respectively in communication connection with the data storage module.

By adopting the technical scheme, the emergency command platforms on all sides can call the data in the data storage module conveniently.

Optionally, the side emergency command platform further includes a side command module and an emergency operation module;

when the communication between the side emergency command platform and the central emergency command platform is interrupted, the side emergency command module directly generates an emergency command instruction based on the risk early warning information;

the emergency operation module is used for executing emergency operation based on the emergency command instruction.

In a second aspect, the present application provides an implementation method of a distributed urban safety brain system, which is applied to the above-mentioned distributed urban safety brain system, and adopts the following technical scheme:

when the side emergency command platform and the center emergency command platform are in normal communication, the side emergency command platform acquires risk early warning information of a side subsystem and sends the risk early warning information to the center emergency command platform;

the center emergency command platform generates an emergency command instruction based on the risk early warning information, and the emergency command instruction is sent to the side emergency command platform, so that the side emergency command platform executes emergency command operation based on the emergency command instruction;

and when the communication between the side emergency command platform and the center emergency command platform is interrupted, taking the side emergency command platform as a new center emergency command platform, directly generating an emergency command instruction based on the risk early warning information, and executing emergency command operation based on the emergency command instruction.

By adopting the technical scheme, when the communication between the side emergency command platform and the central emergency command platform is interrupted due to abnormal conditions, the side emergency command platform is used as a new central emergency command platform to acquire the risk early warning information of the side subsystem for analysis; when emergency operation is needed, the side emergency command platform can directly generate an emergency command instruction so as to execute the emergency operation according to the emergency command instruction. Compared with the prior art, the side emergency command platform can automatically start emergency operation under the condition of abnormal communication, so that the reliability of urban emergency safety early warning is improved, and further urban safety is guaranteed.

In a third aspect, the present application provides a terminal device, which adopts the following technical solution:

a terminal device comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, and when the processor loads and executes the computer program, the implementation method of the distributed city safety brain system is adopted.

By adopting the technical scheme, the implementation method of the distributed urban safety brain system generates the computer program, and the computer program is stored in the memory to be loaded and executed by the processor, so that the terminal equipment is manufactured according to the memory and the processor, and the use is convenient.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, employs an implementation method of the distributed city security brain system as described above.

By adopting the technical scheme, the implementation method of the distributed city safety brain system generates the computer program, the computer program is stored in the computer readable storage medium to be loaded and executed by the processor, and the computer program can be conveniently read and stored through the computer readable storage medium.

Drawings

Fig. 1 is an overall module schematic diagram of a distributed city safety brain system in an embodiment of the present application.

Fig. 2 is a schematic connection diagram of modules of a distributed city safety brain system in an embodiment of the present application.

Description of the reference numerals:

1. a central emergency command platform; 11. a central command module; 12. a data storage module; 2. a side emergency command platform; 21. a side command module; 22. a data temporary storage module; 23. an emergency operation module; 3. an information communication module; 31. an information transmission unit; 32. and an information display unit.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses distributed city safety brain system, refer to fig. 1 and fig. 2, including center emergency command platform 1 and avris emergency command platform 2, in this embodiment, center emergency command platform 1 is city safety center brain promptly, takes a grade of land as an example, and center emergency command platform 1 can be the emergency command platform of the municipality government of the city. The side emergency command platform 2 can be a city safety ceremony and comprises emergency command platforms of all counties, emergency command platforms committed by all offices and emergency command platforms of all command departments.

Under the normal condition, avris emergency command platform 2 can communicate with central emergency command platform 1 to realize that avris emergency command platform 2 carries out the report of the emergency management condition to central emergency command platform 1, and send emergent early warning information, central emergency command platform 1 carries out the decision-making commander according to emergent early warning information, sends emergent command instruction to avris emergency command platform 2, and avris emergency command platform 2 can carry out emergency operation according to emergent command instruction. The emergency command platform of the city government can conveniently carry out overall management and planning on the emergency command system of the whole city, so that emergency resources are reasonably distributed.

Under special conditions, after the communication between the side emergency command platform 2 and the central emergency command platform 1 is interrupted, the central emergency command platform 1 cannot receive the risk early warning information of the side emergency command platform 2, and therefore decision-making command cannot be performed according to the risk early warning information. At this time, the side emergency command platform 2 is used as a new central emergency command platform 1, decision-making command is directly carried out according to risk early warning information, an emergency command instruction is generated, and emergency operation is executed according to the emergency command instruction, so that loss is reduced.

For example, when the side emergency command platform 2 in a prefecture or a county monitors that a flood disaster is about to occur or has occurred, risk early warning information of the flood disaster, including the location, time, intensity and the like of the flood disaster, needs to be sent to the central emergency command platform 1 of the municipality and commissions government, and after the central emergency command platform 1 receives the risk early warning information, the central emergency command platform allocates the risk early warning information according to the existing resources, and allocates emergency personnel and drainage equipment nearby to perform emergency rescue and relief work or early warning work and the like. General flood disasters all lead to because of rainfall reason, consequently when taking place flood disasters, probably because the weather causes the communication between avris emergency command platform 2 and the emergent command platform 1 of center to be interrupted, the avris emergency command platform 2 can't send risk early warning information to the emergent command platform 1 of center this moment, can't receive the emergent command instruction of the emergent command platform 1 of center yet certainly, this moment, the avris emergency command platform 2 of prefecture and county is as new emergent command platform 1 of center, according to the emergent command instruction of risk early warning information generation, and carry out emergency operation according to emergent command instruction.

It is worth mentioning that when the side emergency command platform 2 is used as a new central emergency command platform 1, the emergency command platforms at all villages and towns in the county are used as the side emergency command platforms 2, and emergency operation is performed in response to the new central emergency command platform 1. Based on this, can understand that the emergent command platform 1 in the center that provides in this embodiment is the higher level platform of avris emergency command platform 2, when the emergent command platform 1 of center and the emergent command platform 2 communication of avris were interrupted, regard avris emergency command platform 2 as new emergent command platform 1 of center, simultaneously, the subordinate's platform of the emergent command platform 2 of avris is as new avris emergency command platform 2 to form one set of new city safety brain system.

The center emergency command platform 1 and the side emergency command platform 2 are communicated through the information communication module 3, the information communication module 3 is used for building a command information network based on a distributed soft bus technology, and risk early warning information can be transmitted to the center emergency command platform 1 from the side emergency command platform 2 based on the command information network.

Specifically, the information communication module 3 includes an information transmission unit 31 and an information display unit 32, and the information transmission unit 31 is configured to construct a command information network based on a distributed soft bus technology; the information display unit 32 is configured to visually display the risk early warning information based on the command information network and a preset display interface.

More specifically, in this embodiment, the external interfaces of the central emergency command platform 1 and the side emergency command platforms 2 both adopt a software definition mode, which facilitates the construction of a safety brain and provides component-based services for heterogeneous systems. The distributed soft bus technology adopted by information transmission unit 31 can build an intangible bus between 1+ N + M devices, and has the characteristics of self-discovery, ad hoc networking, high bandwidth and low time delay. Distributed services such as device virtualization, cross-device service calling, multi-screen cooperation, file sharing and the like can be completed among the full scene devices based on the soft bus. The protocol shelf and the software and hardware protocol layer are used for shielding protocol differences of various devices, the bus center module is responsible for analyzing commands to complete discovery and connection between the devices, functions of file transmission, message transmission and the like between the devices are realized through two buses of tasks and data, and the functions are mainly realized by adopting technologies of SDN, 4G/5G, IPv6, PDT high-throughput satellite communication and the like to establish a basic network environment with global coverage, random access, seamless connection and whole-course through, namely a command information network, so that network support is provided for realizing various emergency management informationized services.

More specifically, the information display unit 32 displays the risk early warning information by using technologies such as large screen display, audio sound amplification, video consultation, communication integration, image access, and the like, and forms a leader command cabin operation interface, a cockpit operation interface (applicable to different committees), an urban lifeline monitoring and early warning interface, an address disaster early warning interface, a flood prevention and drought resistance interface, an accident disaster interface, a public health interface, a food safety interface, a social safety interface, a digital safety space interface, an emergency information release platform interface, a science popularization education interface, and the like on the central emergency command platform 1, so that the central emergency command platform 1 can conveniently check and query data, and further decision and command can be facilitated.

Specifically, the central emergency command platform 1 includes a central command module 11 and a data storage module 12, and in this embodiment, when the side emergency command platform 2 and the central emergency command platform 1 communicate normally, the data storage module 12 stores risk early warning information transmitted by the side emergency command platform 2; the central commanding module 11 is used for generating an emergency commanding instruction based on the risk early warning information so that the side commanding platform executes emergency commanding operation based on the emergency commanding instruction.

More specifically, the central command module 11 may also be referred to as a capability middlebox, which has the following capabilities: an AI capability; video capabilities; IOT internet of things perception capability; GIS/CIM; beidou capability; a block chaining capability; the intelligent center of the smart city is built around the intelligent scene of the segment industry, the intelligent center is built, the intelligent power is given out efficiently, and the comprehensive AI of the industry is accelerated; the video capability can be gathered on the video platform, the social resource video platform and the monitoring equipment of each commission office, and various monitoring equipment and monitoring systems are simply, conveniently and efficiently integrated and managed, so that the purposes of interconnection, intercommunication and interoperation are achieved. Through the technical capability, complete central command decision can be generated according to the risk early warning information, so that the environment monitored by the side emergency command platform 2 can be analyzed accurately in real time. Based on this, the central commanding module 11 can specifically realize the following functions: command scheduling, collaborative consultation, topic study and judgment, emergency assessment, auxiliary decision, disaster relief and material guarantee, post-disaster reconstruction command and the like.

More specifically, the data storage module 12 stores the data of the side emergency command platform 2 based on a distributed data management technology, and a divide-and-conquer approach is adopted to solve the problems of large-scale data management and system reliability.

The distributed data management technique is specific as follows:

1. making unified interface specifications including data standards, interface specifications, operation and maintenance specifications, operation standards and the like;

2. and formulating related mechanisms, including a data acquisition/reporting mechanism, an instruction feedback mechanism, a data updating and maintaining mechanism, an alarm processing mechanism, a risk assessment and dynamic monitoring mechanism, a risk control and emergency disposal mechanism and the like.

The data storage module 12 may specifically include a data management unit, a service database, and a basic database, where the data management unit is configured to implement data exchange and sharing, data access, data processing, and a data resource pool, the service database is configured to implement on-duty attendance, collaborative consultation, research and judgment, command, and information distribution, and the basic database includes basic information, a knowledge base, a case base, a plan base, a command system base, and a geographic information base.

In this embodiment, when the information communication module 3 is normal, that is, when the emergency command platform 2 on the side and the emergency command platform 1 in the center can communicate with each other normally, the emergency command platform 2 on the side sends the risk early warning information to the emergency command platform 1 in the center, and stores the risk early warning information in the data storage module 12. Meanwhile, the plurality of side emergency command platforms 2 are respectively communicated with the data storage module 12, so that various data in the data storage module 12 can be shared, information interaction is facilitated, and a high-efficiency emergency rescue system and effective emergency preparation are conveniently formed.

The side emergency command platform 2 comprises a side command module 21, an emergency operation module 23 and a data temporary storage module 22, when communication between the side emergency command platform 2 and the central emergency command platform 1 is interrupted, the side emergency command module directly generates an emergency command instruction based on risk early warning information, and the data temporary storage module 22 is used for temporarily storing the risk early warning information acquired by the side emergency command platform 2; the emergency operation module 23 is used for executing emergency operation based on the emergency command instruction.

Specifically, when the communication between the side emergency command platform 2 and the central emergency command platform 1 is interrupted, the risk early warning information acquired by the side emergency command platform 2 is temporarily stored in the data temporary storage module 22, so that the side emergency command platform 2 is called as a new central emergency command platform 1, and a command decision is made.

Specifically, the side command module 21 in the side emergency command platform 2 is similar to the central command module 11 in the central emergency command platform 1, and the difference is only in the size of the scale. As can be seen from the above example, when the side emergency command platform 2 is used as the new central emergency command platform 1, the side command module 21 processes emergency affairs in county.

Specifically, the emergency operation module 23 is each execution carrier in the side subsystem, such as a fire department, a public security bureau, and the like, and when the central emergency command platform 1 or the side emergency command platform 2 generates an emergency command instruction, the emergency operation module 23 can execute an emergency operation according to the emergency command instruction.

In addition, in this embodiment, the risk early warning information may be defined according to an actual emergency scene, such as rainfall, monitoring video information, and the like, and the side emergency command platform 2 may acquire the risk early warning information by adopting technologies such as RFID radio frequency identification, WSN wireless sensor network, low power consumption sensing networking, remote sensing, intelligent wearing, and the like, so as to realize network access sharing of various sensing devices, thereby facilitating collection of the risk early warning information. Meanwhile, in order to ensure normal execution of the side emergency command platform 2, the embodiment may configure a dual-loop power supply and optical fibers and wireless access of at least two operators for each side emergency command platform 2.

The embodiment of the application further discloses an implementation method of the distributed urban safety brain system, which specifically comprises the following steps:

s101, when the side emergency command platform 2 is in normal communication with the central emergency command platform 1, the side emergency command platform 2 acquires risk early warning information of a side subsystem and sends the risk early warning information to the central emergency command platform 1;

s102, the central emergency command platform 1 generates an emergency command instruction based on the risk early warning information, and sends the emergency command instruction to the side emergency command platform 2, so that the side emergency command platform 2 executes emergency command operation based on the emergency command instruction;

and S103, when the communication between the side emergency command platform 2 and the central emergency command platform 1 is interrupted, taking the side emergency command platform 2 as a new central emergency command platform 1, and executing emergency command operation based on risk early warning information.

The implementation method of the distributed urban safety brain system according to the embodiment of the present application has been described clearly in the distributed urban safety brain system according to the embodiment, and therefore, the detailed description thereof is omitted here.

The embodiment of the application further discloses a terminal device, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein when the processor executes the computer program, the implementation method of the distributed city safety brain system in the embodiment is adopted.

The terminal device may adopt a computer device such as a desktop computer, a notebook computer, or a cloud server, and the terminal device includes but is not limited to a processor and a memory, for example, the terminal device may further include an input/output device, a network access device, a bus, and the like.

The processor may be a Central Processing Unit (CPU), and of course, according to an actual use situation, other general processors, digital Signal Processors (DSPs), application Specific Integrated Circuits (ASICs), field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like may also be used, and the general processor may be a microprocessor or any conventional processor, and the present application does not limit the present invention.

The memory may be an internal storage unit of the terminal device, for example, a hard disk or a memory of the terminal device, or an external storage device of the terminal device, for example, a plug-in hard disk, a smart card memory (SMC), a secure digital card (SD) or a flash memory card (FC) equipped on the terminal device, and the memory may also be a combination of the internal storage unit of the terminal device and the external storage device, and the memory is used for storing a computer program and other programs and data required by the terminal device, and the memory may also be used for temporarily storing data that has been output or will be output, which is not limited in this application.

The implementation method of the distributed city safety brain system in the embodiment is stored in a memory of the terminal device through the terminal device, and is loaded and executed on a processor of the terminal device, so that the terminal device is convenient to use.

The embodiment of the application further discloses a computer readable storage medium, and the computer readable storage medium stores a computer program, wherein when the computer program is executed by a processor, the implementation method of the distributed city safety brain system in the above embodiment is adopted.

The computer program may be stored in a computer readable medium, the computer program includes computer program code, the computer program code may be in a source code form, an object code form, an executable file or some intermediate form, and the like, and the computer readable medium includes any entity or device capable of carrying the computer program code, a recording medium, a usb disk, a removable hard disk, a magnetic disk, an optical disk, a computer memory, a Read Only Memory (ROM), a Random Access Memory (RAM), an electrical carrier signal, a telecommunication signal, a software distribution medium, and the like.

The implementation method of the distributed city safety brain system in the above embodiment is stored in the computer-readable storage medium through the computer-readable storage medium, and is loaded and executed on the processor, so as to facilitate storage and application of the method.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A distributed urban safety brain system is characterized by comprising a central emergency command platform (1) and a side emergency command platform (2);

when the side emergency command platform (2) and the center emergency command platform (1) normally communicate, the side emergency command platform (2) acquires risk early warning information of a side subsystem and sends the risk early warning information to the center emergency command platform (1);

the central emergency command platform (1) generates an emergency command instruction based on the risk early warning information, and sends the emergency command instruction to the side emergency command platform (2) so that the side emergency command platform (2) executes emergency command operation based on the emergency command instruction;

when the communication between the side emergency command platform (2) and the center emergency command platform (1) is interrupted, the side emergency command platform (2) is used as a new center emergency command platform (1), an emergency command instruction is directly generated based on the risk early warning information, and an emergency command operation is executed based on the emergency command instruction.

2. The distributed urban safety brain system according to claim 1, further comprising an information communication module (3), wherein the information communication module (3) is used for constructing a command information network based on a distributed soft bus technology, and the risk early warning information can be transmitted from the side emergency command platform (2) to the central emergency command platform (1) based on the command information network.

3. A distributed urban safety brain system according to claim 2, wherein the information communication module (3) comprises an information transmission unit (31) and an information presentation unit (32);

the information transmission unit (31) is used for constructing a command information network based on a distributed soft bus technology;

the information display unit (32) is used for visually displaying the risk early warning information based on the command information network and a preset display interface.

4. A distributed urban safety brain system according to claim 2, wherein the central emergency command platform (1) comprises a central command module (11) and a data storage module (12);

when the side emergency command platform (2) and the center emergency command platform (1) are in normal communication, the data storage module (12) stores the risk early warning information transmitted by the side emergency command platform (2);

the center commanding module (11) is used for generating an emergency commanding instruction based on the risk early warning information so that the side commanding platform can execute emergency commanding operation based on the emergency commanding instruction.

5. A distributed urban safety brain system according to claim 4, wherein the side emergency command platform (2) comprises a data temporary storage module (22);

when the communication between the side emergency command platform (2) and the central emergency command platform (1) is interrupted, the data temporary storage module (22) is used for temporarily storing the risk early warning information acquired by the side emergency command platform (2);

when the communication between the side emergency general command platform and the center emergency command platform (1) is recovered, the data temporary storage module (22) sends the risk early warning information to the center emergency command platform (1) through the information communication module (3), so that the data storage module (12) stores the risk early warning information.

6. The distributed city safety brain system according to claim 4, wherein the data storage module (12) is used for storing risk early warning information based on a distributed data management technology, and the plurality of side emergency command platforms (2) are respectively in communication connection with the data storage module (12).

7. A distributed urban safety brain system according to claim 1, wherein the roadside emergency command platform (2) further comprises a roadside command module (21) and an emergency operation module (23);

when the communication between the side emergency command platform (2) and the central emergency command platform (1) is interrupted, the side emergency command module directly generates an emergency command instruction based on the risk early warning information;

the emergency operation module (23) is used for executing emergency operation based on the emergency command instruction.

8. An implementation method of a distributed urban safety brain system is applied to the distributed urban safety brain system according to any one of claims 1 to 7, and is characterized in that when the side emergency command platform (2) and the central emergency command platform (1) are in normal communication, the side emergency command platform (2) acquires risk early warning information of a side subsystem and sends the risk early warning information to the central emergency command platform (1);

the central emergency command platform (1) generates an emergency command instruction based on the risk early warning information, and sends the emergency command instruction to the side emergency command platform (2) so that the side emergency command platform (2) executes emergency command operation based on the emergency command instruction;

when the communication between the side emergency command platform (2) and the center emergency command platform (1) is interrupted, the side emergency command platform (2) is used as a new center emergency command platform (1), an emergency command instruction is directly generated based on the risk early warning information, and an emergency command operation is executed based on the emergency command instruction.

9. A terminal device comprising a memory, a processor and a computer program stored in the memory and being capable of running on the processor, characterized in that the method as claimed in claim 8 is applied when the processor loads and executes the computer program.

10. A computer-readable storage medium, in which a computer program is stored, which, when being loaded and executed by a processor, carries out the method of claim 8.

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