CN108765923B - Police networking scheduling command method and system based on BS (browser/server) architecture - Google Patents

Abstract

The invention discloses a police networking dispatching command method and system based on BS architecture, which is characterized in that a service end and a command front end which form the BS architecture complete dispatching command, and vehicle equipment is displayed on an online map of the command front end; the command front end connects two or more devices in sequence, performs networking planning, and sends an instruction to the server; and the server configures the AP and SM of the corresponding vehicle in the networking plan, and the successful information is transmitted to the command front end. The police networking dispatching command method and system based on the BS framework, disclosed by the invention, form the BS framework through the server and the command front end, realize remote control pairing networking of the command car and/or the sharp knife car and avoid data deviation.

Description

Police networking scheduling command method and system based on BS (browser/server) architecture

Technical Field

The invention belongs to the field of a command and scheduling system, and particularly relates to a police networking scheduling command method and system based on a BS framework.

Background

When an alarming task is executed, if a plurality of command vehicles and/or sharp knife vehicles alarm, pairing networking is carried out between every two vehicles in order to ensure video transmission on each vehicle, and when a group of base stations (AP) and a far end (SM) in the two vehicles are connected without errors, networking is finished.

As shown in fig. 1, when two vehicles are paired and networked, the AP of one vehicle is connected to the SM of the other vehicle, and the two vehicles are sequentially correspondingly connected to complete the networking of all vehicles.

In the conventional pairing networking, a person needs to log in a background of each base station (AP) and a remote terminal (SM) respectively and communicate real-time information through means of communication and the like, but certain data deviation is generated when field conditions are severe, personnel are rushing, the terrain is severe and personnel communication signals are not good.

Disclosure of Invention

Aiming at the problems, the invention provides a dispatching and commanding method and a dispatching and commanding system for police networking based on a BS (base station) architecture, which are used for realizing remote control pairing networking and avoiding data deviation.

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

a police networking dispatching command method based on BS architecture, which is to complete dispatching command by a service end and a command front end composing the BS architecture, comprises the following steps;

s1, displaying the vehicle equipment on the online map of the front end of the command;

s2, the command front end connects two or more devices in sequence on the online map, carries out networking planning and sends instructions to the server;

s3, the service end configures the AP and SM of the corresponding vehicle in the networking plan, and the successful information is transmitted to the command front end.

Further, in step S1, the method for commanding the front end to display on the online map includes: the server side adopts an online vector map, performs position rendering on the map based on longitude and latitude data returned by a GPS module on the vehicle equipment, and commands the front end to display through a BS framework.

Further, the specific method of step S2 includes:

s201, commanding a front end to perform networking planning, and selecting equipment on an online map to connect lines, wherein the connecting lines are in a dotted line shape in the online map;

s202, the front end is commanded to send networking pairing information to the server side, wherein the networking pairing information is specific information that an AP of one vehicle is connected with an SM of another vehicle and the AP of one vehicle is sequentially and correspondingly connected with the SM.

Further, the specific content of step S3 includes:

s301, after receiving networking pairing information, the server side modifies the ColorCode values of corresponding paired vehicles to be consistent through an SNMP protocol;

s302, the server returns configuration success information;

and S303, rendering the corresponding dotted line into a solid line after the command front end receives the configuration success information.

Further, step S304 is included, the front end is instructed to render the solid line into different colors according to the signal intensity of the real-time feedback, which represents the difference of the signal intensity.

The invention also provides a police networking dispatching command system based on the BS architecture, which comprises: the system comprises a server and a command front end which form a BS framework, wherein the command front end is connected with the server through a network, displays vehicle equipment in an online map, sequentially connects two or more than two pieces of equipment to perform networking planning, and sends an instruction to the server; the server communicates with the vehicle equipment through an SNMP protocol, configures the AP and SM of the corresponding vehicle in the networking plan, and transmits the successful information to the command front end.

Furthermore, the server side adopts an online vector map and carries out position rendering on the map based on longitude and latitude data returned by a GPS module on the vehicle equipment. Compared with the prior art, the invention has the following beneficial effects:

the police networking dispatching command method and system based on the BS framework, disclosed by the invention, form the BS framework through the server and the command front end, realize remote control pairing networking of the command car and/or the sharp knife car and avoid data deviation.

Drawings

FIG. 1 is a schematic diagram of a conventional pairing network;

FIG. 2 is a schematic diagram of a networking architecture according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a server operation according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a networking flow according to an embodiment of the present invention.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

As shown in fig. 2, a server and a command front end of a BS architecture are formed, where the command front end is connected to the server through a network, displays command car devices in an online map, sequentially connects two or more devices for networking planning, and sends an instruction to the server; the server communicates with the vehicle equipment through an SNMP protocol, configures the AP and SM of the corresponding vehicle in the networking plan, and transmits the successful information to the command front end.

The specific process is as follows:

1. networking the visible equipment on the map in a connection mode, and sequentially connecting two (or more) equipment through a command front end to perform networking planning;

the map is based on a sky map, and the equipment position marking on the map is based on longitude and latitude data returned by a GPS module on the equipment to render the position on the map.

2. The front-end display operation flow: the command front end selects to connect two devices on a map, the two devices are in a dotted line shape at the moment, the command front end sends a networking pairing relation to the server after networking planning is carried out, the server of the server modifies the corresponding configuration of the device ends through SNMP according to the pairing relation, namely, AP and SM are configured, then the devices are restarted, the networking pairing configuration of the devices is completed, the server transmits information to the command front end after the operation configuration is successful, at the moment, the command front end displays that the two devices are connected by a solid line on the map, and the networking planning is successful.

As shown in fig. 3, if the connection between the base station (AP) and the remote end (SM) needs to satisfy that the Color code (Color code) and the Frequency (Frequency) are completely the same, respectively, the pairing is successful.

In this embodiment, as shown in fig. 4, an AP (hereinafter, referred to as AP1) of the command car 1 is connected to an SM (hereinafter, referred to as SM2) of the tool car 2 and an AP (hereinafter, referred to as AP2) of the tool car 2 is connected to an SM (hereinafter, referred to as SM3) of the tool car 3 by a connection plan at the command front end, and then the command front end sends the following networking pairing relationship to the service end:

AP1————>SM2；

AP2————>SM3；

after receiving the networking pairing information, the server side modifies the Color Code of the SM2 to be the Color Code value consistent with the AP1 through the SNMP, modifies the Color Code of the SM3 to be the Color Code value consistent with the AP1, respectively restarts the SM2 and the SM3, then returns the configuration success information, and renders the corresponding dotted line into a solid line after the command front end receives the configuration success information.

3. The server side automatically adjusts the antenna angle according to the real-time returned equipment signal strength (RSSI), sends signal strength information to the command front end, and the command front end displays the interconnection condition of each piece of equipment, wherein the signal strength is different, the colors of connecting wires are different, the signal strength displays green, the middle display displays yellow, and the signal difference displays red.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A police networking dispatching command method based on BS architecture is characterized in that dispatching command is completed by a service end and a command front end which form the BS architecture, and comprises the following steps;

s1, displaying the vehicle equipment on the online map of the front end of the command;

s2, the command front end connects two or more devices in sequence on the online map, carries out networking planning and sends instructions to the server;

s3, the service end configures the AP and SM of the corresponding vehicle in the networking plan, and the successful information is transmitted to the command front end.

2. The BS architecture-based police networking scheduling command method of claim 1, wherein in step S1, the method for displaying the command front end on the online map is as follows: the server side adopts an online vector map, performs position rendering on the map based on longitude and latitude data returned by a GPS module on the vehicle equipment, and commands the front end to display through a BS framework.

3. The BS architecture-based police networking scheduling command method according to claim 1, wherein the specific method of step S2 includes:

s201, commanding a front end to perform networking planning, and selecting equipment on an online map to connect lines, wherein the connecting lines are in a dotted line shape in the online map;

s202, the front end is commanded to send networking pairing information to the server side, wherein the networking pairing information is specific information that an AP of one vehicle is connected with an SM of another vehicle and the AP of one vehicle is sequentially and correspondingly connected with the SM.

4. The BS architecture-based police networking scheduling command method of claim 3, wherein the specific content in step S3 includes:

s301, after receiving networking pairing information, the server side modifies the Color Code values of corresponding paired vehicles to be consistent through an SNMP protocol;

s302, the server returns configuration success information;

and S303, rendering the corresponding dotted line into a solid line after the command front end receives the configuration success information.

5. The dispatching command method for police networking based on BS architecture of claim 4, further comprising step S304, the command front end rendering the solid line with different colors according to the signal strength returned in real time, which represents the difference of signal strength.

6. A police networking dispatching command system based on BS architecture is characterized by comprising: the system comprises a server and a command front end which form a BS framework, wherein the command front end is connected with the server through a network, displays vehicle equipment in an online map, sequentially connects two or more than two pieces of equipment to perform networking planning, and sends an instruction to the server; the server communicates with the vehicle equipment through an SNMP protocol, configures the AP and SM of the corresponding vehicle in the networking plan, and transmits the successful information to the command front end.

7. The BS-architecture-based police networking dispatching command system as claimed in claim 6, wherein the server side adopts an online vector map and performs position rendering on the map based on longitude and latitude data returned by a GPS module on the vehicle device.

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