CN113905086A - Fire fighting system - Google Patents

Abstract

The application discloses a fire fighting system. Wherein, this fire extinguishing system includes: the alarm server is used for receiving the alarm information and distributing an alarm task according to the alarm information; the vehicle-mounted zero terminal is used for receiving the identity identification information of the object to be warned, which is input by the target object, generating a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal and sending the login request to the target virtual machine; the target virtual machine is used for receiving the query result returned by the alarm server and forwarding the query result to the vehicle-mounted zero terminal; the geographic information system GIS server sends a plurality of undetermined routes going to the police-out place to the vehicle-mounted zero terminal; the display equipment is used for displaying a plurality of pending routes. The technical problem of because fire engine's vehicle mounted terminal generally binds with the car owner among the correlation technique, and data all keep each fire engine data that cause locally can not share, be difficult to realize communicating with other terminals or server, influence fire engine performance greatly is solved to this application.

Description

Fire fighting system

Technical Field

The application relates to the field of data processing, in particular to a fire fighting system.

Background

The vehicle-mounted terminal is a front-end device of a vehicle monitoring and management system, and can also be called a vehicle dispatching and monitoring terminal (TCU terminal). Generally, a vehicle-mounted terminal integrates multiple functions such as positioning, communication, an automobile driving recorder and the like, and has a strong service scheduling function and data processing capability. In addition, the system also supports phone book calling and text information voice broadcasting, and has the functions of security alarm, wire cutting alarm, remote safe oil cut-off and power cut-off safety protection.

However, the current vehicle-mounted terminal generally operates locally, and the same vehicle-mounted terminal is generally bound with a vehicle owner. If different people drive the same vehicle, the data of the vehicle-mounted terminal cannot be switched in time because the data is stored locally. For the fire-fighting vehicles in the fire-fighting field, if each vehicle-mounted terminal only allows one fire fighter to use, and the data can only be stored locally, the data sharing among the fire-fighting vehicles and the utilization rate of the fire-fighting vehicles can be greatly influenced, and because the data are stored on the local vehicle-mounted terminal, the interaction with other terminals or servers is difficult to realize, and the use performance of the fire-fighting vehicles is greatly weakened.

In view of the above problems, no effective solution has been proposed.

Disclosure of Invention

The embodiment of the application provides a fire fighting system to at least, solve because the vehicle mounted terminal of the well fire fighting vehicle generally binds with the owner in the correlation technique, and each fire fighting vehicle data that the data all kept and cause locally can not share, be difficult to realize communicating with other terminals or server, influence the technical problem of fire fighting vehicle performance greatly.

According to an aspect of an embodiment of the present application, there is provided a fire fighting system, including: the alarm server is used for receiving the alarm information and distributing an alarm task according to the alarm information, wherein the alarm information at least comprises: and the police-out place and the police-out task at least comprise: the alarm server is provided with a plurality of virtual machines, the virtual machines are used for processing and storing data from the vehicle-mounted zero terminal, and the virtual machines correspond to the identity identification information of the object to be warned one by one; the system comprises a vehicle-mounted zero terminal, a target virtual machine and a warning server, wherein the vehicle-mounted zero terminal is used for receiving identity identification information of an object to be warned, which is input by a target object, generating a login request for logging in the target virtual machine corresponding to the vehicle-mounted zero terminal and sending the login request to the target virtual machine; the target virtual machine is used for sending a query request to the alarm server, receiving a query result returned by the alarm server, and forwarding the query result to the vehicle-mounted zero terminal, wherein the query result at least comprises the following components: a place of police dispatch; the geographic information system GIS server is used for receiving the data request of the alarm server, establishing communication connection between the vehicle-mounted zero terminal and the GIS server, and sending a plurality of undetermined routes to the police-giving place to the vehicle-mounted zero terminal; wherein, the data request includes: identity identification information to be alarmed; and the display equipment is connected with the vehicle-mounted zero terminal and used for displaying a plurality of undetermined routes.

Optionally, the vehicle-mounted zero terminal is connected with an input device, the input device is used for receiving a selection instruction of the target object, the selection instruction is used for selecting a target route from the multiple pending routes, and the display device is further used for displaying the target route.

Optionally, the vehicle-mounted zero terminal is connected with the positioning device, and is configured to acquire positioning information of the positioning device, send the positioning information to the GIS server, and receive a target route updated by the GIS server.

Optionally, the GIS server is configured to send the building structure corresponding to the warning place to the vehicle-mounted zero terminal after the target route is determined; the display device is also used for displaying the architectural structure.

Optionally, the GIS server establishes a communication connection with the image transmission device, where the image transmission device corresponds to the identification code one to one, and the GIS server sends the building structure diagram to the image transmission device and displays the building structure diagram in the image transmission device when detecting that the image transmission device corresponding to the identification code is turned on.

Optionally, the object to be alerted comprises: a target object, the image transmission apparatus including: wearable image transmission equipment, target object and wearable image transmission equipment one-to-one.

Optionally, the image transmission device is provided with a position sensor, the image transmission device sends the current position information of the target object detected by the position sensor to the GIS server, and the GIS server adjusts the displayed architectural drawing structure diagram according to the current position information.

According to an aspect of the embodiment of the present application, there is also provided an alarm information processing method, including: the method comprises the steps that a vehicle-mounted zero terminal receives identity identification information of an object to be warned, which is input by a target object, generates a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sends the login request to the target virtual machine; receiving a first query result of a target virtual machine, wherein the target virtual machine is used for sending a query request to an alarm server and acquiring the first query result, and the first query result at least comprises: the method comprises the following steps that at an alarm place, a plurality of virtual machines are arranged in an alarm server and used for processing and storing data from a vehicle-mounted zero terminal, wherein the virtual machines correspond to identity identification information of an object to be alarmed one by one; sending a data query request to a Geographic Information System (GIS) server, and receiving a second query result returned by the GIS server, wherein the second query result comprises: and the system goes to a plurality of undetermined routes to the police-taking place, wherein the alarm server is different from the GIS server, and the alarm server is in communication connection with the zero terminal.

Optionally, the vehicle-mounted zero terminal is connected with an input device, the input device is used for receiving a selection instruction of a target object, the selection instruction is used for selecting a target route from a plurality of pending routes, and after the target route is determined, the GIS server is used for sending a building structure diagram corresponding to the alarm point to the vehicle-mounted zero terminal.

According to another aspect of the embodiments of the present application, a non-volatile storage medium is further provided, where the non-volatile storage medium includes a stored program, and when the program runs, a device in which the non-volatile storage medium is controlled to execute any one of the alert information processing methods.

According to another aspect of the embodiments of the present application, there is also provided a processor, configured to execute a program, where the program executes any one of the alarm information processing methods when running.

In this application embodiment, adopt the mode that corresponds the virtual machine with vehicle mounted terminal in the alarm server setting, through the alarm server for receive alarm information, and assign out alert task according to alarm information, wherein, alarm information includes at least: and the police-out place and the police-out task at least comprise: the alarm server is provided with a plurality of virtual machines, the virtual machines are used for processing and storing data from the vehicle-mounted zero terminal, and the virtual machines correspond to the identity identification information of the object to be warned one by one; the system comprises a vehicle-mounted zero terminal, a target virtual machine and a warning server, wherein the vehicle-mounted zero terminal is used for receiving identity identification information of an object to be warned, which is input by a target object, generating a login request for logging in the target virtual machine corresponding to the vehicle-mounted zero terminal and sending the login request to the target virtual machine; the target virtual machine sends a query request to the alarm server, receives a query result returned by the alarm server, and forwards the query result to the vehicle-mounted zero terminal, wherein the query result at least comprises the following components: a place of police dispatch; the geographic information system GIS server is used for receiving the data request of the alarm server, establishing communication connection between the vehicle-mounted zero terminal and the GIS server, and sending a plurality of undetermined routes to the police-giving place to the vehicle-mounted zero terminal; wherein, the data request includes: identity identification information to be alarmed; display device, be connected with on-vehicle zero terminal, be used for showing many undetermined routes, the purpose of handling and storing the virtual machine of on-vehicle zero terminal's data in alarm server has been reached, thereby it can allow a plurality of objects to log on to have realized an on-vehicle terminal, and interact on-vehicle terminal and each server, it has promoted fire engine service performance's technological effect greatly to have realized data sharing, and then solved because fire engine's on-vehicle terminal generally binds with the car owner among the correlation technique, and data all keep each fire engine data that cause locally can not share, be difficult to realize communicating with other terminals or server, influence fire engine service performance technical problem greatly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a block diagram of an alternative fire protection system according to an embodiment of the present application;

FIG. 2 is a block diagram of an alternative data sharing system for an in-vehicle system according to an embodiment of the present application;

FIG. 3 is a block diagram of an alternative fire protection system in accordance with an embodiment of the present application;

FIG. 4 is an alternative alert information processing method according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, 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 only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In accordance with an embodiment of the present application, there is provided an embodiment of a fire protection system, it should be noted that the steps illustrated in the flowchart of the drawings may be performed in a computer system, such as a set of computer-executable instructions, and that while a logical order is illustrated in the flowchart, in some cases the steps illustrated or described may be performed in an order different than presented herein.

Fig. 1 is a fire fighting system according to an embodiment of the present application, as shown in fig. 1, the system comprising:

and the alarm server 40 is used for receiving the alarm information and distributing an alarm task according to the alarm information, wherein the alarm information at least comprises: and the police-out place and the police-out task at least comprise: the alarm server 40 is provided with a plurality of virtual machines 400, each virtual machine 400 is used for processing and storing data from the vehicle-mounted zero terminal 42, wherein the virtual machines 400 correspond to the identity information of the object to be warned one by one;

the vehicle-mounted zero terminal 42 is used for receiving the identity identification information of the object to be warned, which is input by the target object, generating a login request for logging in the target virtual machine 4000 corresponding to the vehicle-mounted zero terminal 42, and sending the login request to the target virtual machine 4000;

the target virtual machine 4000 is configured to send a query request to the alarm server 40, receive a query result returned by the alarm server 40, and forward the query result to the on-board zero terminal 42, where the query result at least includes: a place of police dispatch;

the geographic information system GIS server 44 is used for receiving the data request of the alarm server 40, establishing communication connection between the vehicle-mounted zero terminal 42 and the GIS server 44, and sending a plurality of undetermined routes to the police-giving place to the vehicle-mounted zero terminal 42; wherein, the data request includes: identity identification information to be alarmed;

and the display device 46 is connected with the vehicle-mounted zero terminal 42 and is used for displaying a plurality of pending routes.

In this fire extinguishing system, alarm server 40 for receive alarm information, and assign out alert task according to alarm information, wherein, alarm information includes at least: and the police-out place and the police-out task at least comprise: the alarm server 40 is provided with a plurality of virtual machines 400, each virtual machine 400 is used for processing and storing data from the vehicle-mounted zero terminal 42, wherein the virtual machines 400 correspond to the identity information of the object to be warned one by one; the vehicle-mounted zero terminal 42 is used for receiving the identity identification information of the object to be warned, which is input by the target object, generating a login request for logging in the target virtual machine 4000 corresponding to the vehicle-mounted zero terminal 42, and sending the login request to the target virtual machine 4000; the target virtual machine 4000 is configured to send a query request to the alarm server 40, receive a query result returned by the alarm server 40, and forward the query result to the on-board zero terminal 42, where the query result at least includes: a place of police dispatch; the geographic information system GIS server 44 is used for receiving the data request of the alarm server 40, establishing communication connection between the vehicle-mounted zero terminal 42 and the GIS server 44, and sending a plurality of undetermined routes to the police-giving place to the vehicle-mounted zero terminal 42; wherein, the data request includes: identity identification information to be alarmed; display device 46, be connected with zero on-vehicle terminal 42, be used for showing many undetermined routes, the virtual machine with zero on-vehicle terminal's data in alarm server has been reached and has been handled and the purpose of storage, thereby it can allow a plurality of objects to log on to have realized a vehicle on-vehicle terminal, and interact vehicle on-vehicle terminal and each server, realized data sharing and promoted fire engine service performance's technical effect greatly, and then solved because fire engine's vehicle on-vehicle terminal generally binds with the car owner among the correlation technique, and data all keep each fire engine data that cause locally can not share, be difficult to realize communicating with other terminals or server, influence fire engine service performance technical problem greatly.

It should be noted that, the communication between the vehicle-mounted zero terminal and the virtual zero terminal can be realized based on the gtp protocol, the existing vehicle-mounted system (local ARM chip + OS system) can be changed into the zero terminal chip + gtp protocol + cloud resources, and the sharing of the office and entertainment scene data is realized, and it should be further noted that the above-mentioned identification information includes but is not limited to: account number and password and fire-fighting vehicle license plate number information.

Fig. 2 is a block diagram of an alternative data sharing system of the vehicle-mounted system according to the present application, as shown in fig. 2:

the data sharing system architecture includes at least: the system comprises a server, a vehicle-mounted zero terminal and a display, wherein the server is provided with a plurality of virtual machines, each virtual machine corresponds to one account password, and a user can log in the virtual machine through the vehicle-mounted zero terminal by using the account password. And the virtual machine pushes the corresponding stored data and displays the data on a display corresponding to the vehicle-mounted zero terminal. The management unit of the server may manage the correspondence between the account password and the virtual machine.

In some optional embodiments of the present application, the vehicle-mounted zero terminal is connected with an input device, the input device is configured to receive a selection instruction of a target object, the selection instruction is configured to select a target route from a plurality of pending routes, and the display device is further configured to display the target route.

In some embodiments of the application, the vehicle-mounted zero terminal is connected with the positioning device and used for acquiring positioning information of the positioning device, sending the positioning information to the GIS server and receiving a target route updated by the GIS server.

In some optional embodiments of the present application, the GIS server is configured to send a building structure corresponding to the warning location to the vehicle-mounted zero terminal after the target route is determined; the display device is also used for displaying the architectural structure.

In some embodiments of the application, a communication connection is established between the GIS server and the image transmission device, wherein the image transmission device corresponds to the identification code one to one, and the GIS server sends the building structure diagram to the image transmission device and displays the building structure diagram in the image transmission device when detecting that the image transmission device corresponding to the identification code is turned on.

In some optional embodiments of the present application, the object to be alerted comprises: a target object, the image transmission apparatus including: wearable image transmission equipment, target object and wearable image transmission equipment one-to-one.

In some embodiments of the present application, the image transmission device is provided with a position sensor, the image transmission device sends current position information of the target object detected by the position sensor to the GIS server, and the GIS server adjusts the displayed architectural drawing structure diagram according to the current position information.

FIG. 3 is a block diagram of an alternative fire protection system of the present application, as shown in FIG. 3, comprising:

the System comprises a GIS server, an alarm center, an R end and a display, wherein, a Geographic Information System (GIS) is also called as a geoscience Information System. It is a specific and very important spatial information system.

It should be noted that the GIS data represents real world objects such as roads, land use, altitude, buildings, forests, plants, rivers, etc. in the form of digital data. Real-world objective objects can be divided into two abstractions-discrete objects (e.g. houses) and a continuous field of objects (e.g. rainfall or altitude). The two main methods for storing data in the GIS system by the two abstractions are as follows: grid (mesh) and vector. It should also be noted that the raster (grid) data is composed of rows and columns storing unique value storage cells. It is similar to a grid image, except that with the appropriate colors, the numerical value recorded for each cell may be a classification group (e.g., land use condition), a continuous value (e.g., rainfall) or a null value recorded when data is not available. The resolution of the raster data set depends on the grid width of the ground unit. Typically the storage unit represents a square area of the ground, but may be used to represent other shapes. The raster data can be used to represent either a region or an object. The vector data represents an objective object using a geometric figure such as a point, a line (a series of point coordinates), or a plane (a shape is determined by a line). For example, property boundaries are represented by polygons in a subdivision of a house, and locations are represented accurately by points. Vectors can also be used to represent domains with continuous variability. Altitude or other continuously varying values are represented using contour lines and an irregular triangular grid (TIN). The TIN records are evaluated for these points connected into an irregular grid of triangles. The faces of the triangles represent the terrain surface.

Expressing reality using a grid or vector data model has both advantages and disadvantages. The raster data is arranged in all points in the plane and the same value is recorded, and the vector format only stores the data where needed, so that the former needs more storage space than the latter. The operation of overlay can be easily implemented for raster data, while it is much more difficult for vector data. The vector data may be displayed like vector graphics on a conventional map, while the raster data may appear pasty to the boundaries of the display objects when displayed as an image.

It should be noted that besides spatial data expressed in geometric vector coordinates or grid cell locations, additional non-spatial data may be stored. In the vector data, these additional data are attributes of the objective object. For example, a polygon of a forest resource may contain an identifier value and information about the type of tree. Cell values may store attribute information in the raster data, but may also serve as identifiers associated with records in other tables. The data storage process can be divided based on regions, such as provinces, cities, districts, streets and the like, so as to facilitate data query, and can also be divided according to data types, such as buildings, forests and the like.

In the system, an R end (namely a vehicle-mounted zero terminal) and a display are arranged in a fire fighting truck, and after receiving a fire fighting task, an operator can operate on the truck at any time, select a route and request geographical position information of a rescue place or an internal structure diagram of a building and the like.

Specifically, the rescue method can comprise the following steps:

step 201, authentication process;

in the process, after receiving a fire alarm task or other alarm tasks, the alarm center records the alarm occurrence place and the general situation. Then, an alarm task is assigned, and the assigned vehicle information or the account information of the operator is recorded.

The operator can input account number and password or fire fighting truck license plate number information for authentication through the display on the police car or the fire fighting truck. Specifically, the zero terminal acquires account information input through a keyboard and a mouse, generates a login request, and sends the login request to the alarm center. The alarm center inquires whether the account is authorized, and if the account is authorized, the alarm center inquires the alarm message corresponding to the account. The alert message includes, but is not limited to: a place of police. The site of the police can be embodied to a certain building of a certain cell, and even several units and several layers can be realized. And sending the final place generation notification message to the zero terminal for displaying on a display.

And after the operator confirms that the task is consistent with the distributed task, clicking to confirm, and finishing the authentication process. The alarm center sends a data request to the GIS server, wherein the data request comprises police vehicle information, and the information comprises vehicle identification, corresponding zero terminal address and the like. And the GIS server and the zero terminal are enabled to directly establish a communication link.

Step 202, route selection process;

after the communication link is established, a route request is generated based on the destination and sent to the GIS server. And the GIS server searches for routes, sends the preferred N routes such as 3 routes to the zero terminal, and performs navigation after the routes are determined by an operator.

And step 203, requesting a building structure diagram of the place to be rescued.

After the process of navigation, a structure diagram request is sent. And the GIS system inquires the 3D graph in the database based on the specific position in the structure diagram request, performs data compression and sends the compressed data to the zero terminal.

And after the zero terminal decodes, displaying.

The display modes can be classified into one of the following:

(1) split screen display:

one screen performs split-screen display, in which one screen displays a map and the other screen displays 3D graphics. Also, the responses to the two parts are independent, that is, the operator can independently operate the navigation part or the 3D graphics part, respectively.

That is, in the first display area, the navigation map may be set, and the second display area may set the 3D image data without affecting each other.

(2) Extended screen display

If a plurality of screens are arranged in the vehicle, the expansion screens can be selected, wherein one screen displays a navigation map, and the other screen displays 3D structure data, so that the operation of operators is facilitated.

And the data volume of the three-dimensional data is large, so that the three-dimensional data can be transmitted through the 5G module during transmission. The 5G module can be on a vehicle or integrated in a zero terminal.

Step 204, rescue is implemented

Optionally, the rescue can be ordinary rescue, and the rescue can also be implemented through a helmet or intelligent glasses.

In particular, each firefighter may be equipped with a smart helmet or glasses, referred to as a picture transmission device. Each image transmission device has its own unique identification code. All the image transmission equipment identification codes are stored in the server and reported to the GIS server. And after detecting that the image transmission equipment corresponding to the identification code is started, the GIS server pushes a corresponding 3D structure diagram to the image transmission equipment.

The firefighter can display the specific structure diagram through 3D glasses. Specifically, each firefighter is located in a different location and may have a different structural diagram. For the GIS server, a plurality of processes can be virtualized to simultaneously respond to the structure diagram display of a plurality of image transmission devices, and the operations of each firefighter can be respectively received.

FIG. 4 is an alarm information processing method according to an embodiment of the present application, and as shown in FIG. 4, the alarm information processing method includes:

step S102, the vehicle-mounted zero terminal receives identity identification information of an object to be warned, which is input by a target object, generates a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sends the login request to the target virtual machine;

step S104, receiving a first query result of a target virtual machine, wherein the target virtual machine is used for sending a query request to an alarm server and acquiring the first query result, and the first query result at least comprises: the method comprises the following steps that at an alarm place, a plurality of virtual machines are arranged in an alarm server and used for processing and storing data from a vehicle-mounted zero terminal, wherein the virtual machines correspond to identity identification information of an object to be alarmed one by one;

step S106, sending a data query request to a Geographic Information System (GIS) server, and receiving a second query result returned by the GIS server, wherein the second query result comprises: and the system goes to a plurality of undetermined routes to the police-taking place, wherein the alarm server is different from the GIS server, and the alarm server is in communication connection with the zero terminal.

In the alarm information processing method, a vehicle-mounted zero terminal receives identity identification information of an object to be warned, which is input by a target object, generates a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sends the login request to the target virtual machine; receiving a first query result of a target virtual machine, wherein the target virtual machine is used for sending a query request to an alarm server and acquiring the first query result, and the first query result at least comprises: the method comprises the following steps that at an alarm place, a plurality of virtual machines are arranged in an alarm server and used for processing and storing data from a vehicle-mounted zero terminal, wherein the virtual machines correspond to identity identification information of an object to be alarmed one by one; sending a data query request to a Geographic Information System (GIS) server, and receiving a second query result returned by the GIS server, wherein the second query result comprises: go to many undetermined routes of going to the place of police, wherein, the alarm server is different with the GIS server, the alarm server has established communication connection with zero terminal, the purpose of handling and storing the data of on-vehicle zero terminal in the virtual machine of alarm server has been reached, thereby realized that a vehicle mounted terminal can allow a plurality of objects to log in, and interacted vehicle mounted terminal and each server, realized that data sharing has promoted the technical effect of fire engine performance greatly, and then solved because the vehicle mounted terminal of fire engine generally binds with the owner among the correlation technique, and each fire engine data that data all save cause locally can not share, be difficult to realize communicating with other terminals or server, influence fire engine performance technical problem greatly.

Optionally, the vehicle-mounted zero terminal is connected with an input device, the input device is used for receiving a selection instruction of a target object, the selection instruction is used for selecting a target route from the multiple undetermined routes, and after the target route is determined, the GIS server is used for sending the building structure diagram corresponding to the alarm-out place to the vehicle-mounted zero terminal.

According to another aspect of the embodiments of the present application, a non-volatile storage medium is further provided, where the non-volatile storage medium includes a stored program, and when the program runs, a device in which the non-volatile storage medium is controlled to execute any one of the alert information processing methods.

Specifically, the storage medium is used for storing program instructions for executing the following functions, and the following functions are realized:

the method comprises the steps that a vehicle-mounted zero terminal receives identity identification information of an object to be warned, which is input by a target object, generates a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sends the login request to the target virtual machine; receiving a first query result of a target virtual machine, wherein the target virtual machine is used for sending a query request to an alarm server and acquiring the first query result, and the first query result at least comprises: the method comprises the following steps that at an alarm place, a plurality of virtual machines are arranged in an alarm server and used for processing and storing data from a vehicle-mounted zero terminal, wherein the virtual machines correspond to identity identification information of an object to be alarmed one by one; sending a data query request to a Geographic Information System (GIS) server, and receiving a second query result returned by the GIS server, wherein the second query result comprises: and the system goes to a plurality of undetermined routes to the police-taking place, wherein the alarm server is different from the GIS server, and the alarm server is in communication connection with the zero terminal.

According to another aspect of the embodiments of the present application, there is also provided a processor, configured to execute a program, where the program executes any one of the alarm information processing methods when running.

Specifically, the processor is configured to call a program instruction in the memory, and implement the following functions:

the method comprises the steps that a vehicle-mounted zero terminal receives identity identification information of an object to be warned, which is input by a target object, generates a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sends the login request to the target virtual machine; receiving a first query result of a target virtual machine, wherein the target virtual machine is used for sending a query request to an alarm server and acquiring the first query result, and the first query result at least comprises: the method comprises the following steps that at an alarm place, a plurality of virtual machines are arranged in an alarm server and used for processing and storing data from a vehicle-mounted zero terminal, wherein the virtual machines correspond to identity identification information of an object to be alarmed one by one; sending a data query request to a Geographic Information System (GIS) server, and receiving a second query result returned by the GIS server, wherein the second query result comprises: and the system goes to a plurality of undetermined routes to the police-taking place, wherein the alarm server is different from the GIS server, and the alarm server is in communication connection with the zero terminal.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.

In the above embodiments of the present application, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present application and it should be noted that those skilled in the art can make several improvements and modifications without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims (11)

1. A fire fighting system, comprising:

the alarm server is used for receiving alarm information and distributing an alarm task according to the alarm information, wherein the alarm information at least comprises: a place of police dispatch, the task of police dispatch comprising at least: the alarm server is provided with a plurality of virtual machines, the virtual machines are used for processing and storing data from a vehicle-mounted zero terminal, and the virtual machines correspond to the identity identification information of the object to be alarmed one by one;

the vehicle-mounted zero terminal is used for receiving the identity identification information of the object to be warned, which is input by a target object, generating a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sending the login request to the target virtual machine;

the target virtual machine is configured to send a query request to the alarm server, receive a query result returned by the alarm server, and forward the query result to the vehicle-mounted zero terminal, where the query result at least includes: the place of police dispatch;

the geographic information system GIS server is used for receiving a data request of the alarm server, establishing communication connection between the vehicle-mounted zero terminal and the GIS server, and sending a plurality of undetermined routes to the police-out place to the vehicle-mounted zero terminal; wherein, the data request includes: the identity information to be alarmed;

and the display equipment is connected with the vehicle-mounted zero terminal and used for displaying the plurality of undetermined routes.

2. The system according to claim 1, wherein an input device is connected to the vehicle-mounted zero terminal, the input device is used for receiving a selection instruction of a target object, the selection instruction is used for selecting a target route from the plurality of pending routes, and the display device is further used for displaying the target route.

3. The system according to claim 2, wherein the vehicle-mounted zero terminal is connected to a positioning device, and configured to acquire positioning information of the positioning device, send the positioning information to the GIS server, and receive a target route updated by the GIS server.

4. The system of claim 2, wherein the GIS server is configured to, after the target route is determined, send the building structure corresponding to the police position to the vehicle-mounted zero terminal; the display device is also used for displaying the architectural structure diagram.

5. The system according to claim 4, wherein the GIS server establishes a communication connection with an image transmission device, wherein the image transmission device is in one-to-one correspondence with an identification code, and the GIS server sends the building structure diagram to the image transmission device and displays the building structure diagram in the image transmission device when detecting that the image transmission device corresponding to the identification code is turned on.

6. The system of claim 5, wherein the object to be alerted comprises: the target object, the image transmission apparatus comprising: the target object corresponds to the wearable image transmission equipment in a one-to-one mode.

7. The system according to claim 6, wherein the image transmission device is provided with a position sensor, the image transmission device transmits the current position information of the target object detected by the position sensor to the GIS server, and the GIS server adjusts the displayed architectural drawing structure diagram according to the current position information.

8. An alarm information processing method is characterized by comprising the following steps:

the method comprises the steps that a vehicle-mounted zero terminal receives identity identification information of an object to be warned, which is input by a target object, generates a login request for logging in a target virtual machine corresponding to the vehicle-mounted zero terminal, and sends the login request to the target virtual machine;

receiving a first query result of the target virtual machine, where the target virtual machine is configured to send a query request to an alarm server to obtain the first query result, and the first query result at least includes: the alarm system comprises an alarm issuing place, wherein a plurality of virtual machines are arranged in the alarm server and used for processing and storing data from a vehicle-mounted zero terminal, wherein the virtual machines correspond to the identity identification information of an object to be issued with an alarm one by one;

sending a data query request to a Geographic Information System (GIS) server, and receiving a second query result returned by the GIS server, wherein the second query result comprises: and the system goes to a plurality of undetermined routes of the police-out place, wherein the alarm server is different from the GIS server, and the alarm server is in communication connection with the zero terminal.

9. The method according to claim 8, wherein an input device is connected to the on-board zero terminal, the input device is used for receiving a selection instruction of a target object, the selection instruction is used for selecting a target route from the plurality of pending routes, and after the target route is determined, the GIS server is used for sending a building structure diagram corresponding to the alarm point to the on-board zero terminal.

10. A non-volatile storage medium, characterized in that the non-volatile storage medium includes a stored program, wherein when the program runs, a device where the non-volatile storage medium is located is controlled to execute the alarm information processing method according to any one of claims 8 to 9.

11. A processor, characterized in that the processor is configured to execute a program, wherein the program executes the alarm information processing method according to any one of claims 8 to 9.

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