CN110769441B - Wireless communication private network surveying system and method - Google Patents

Abstract

The invention provides a wireless communication private network surveying system in the technical field of wireless communication, which comprises a mobile terminal, a portable individual soldier surveying device, a wireless private network base station and a server; one end of the portable individual soldier surveying device is connected with the mobile terminal, and the other end of the portable individual soldier surveying device is connected with the wireless private network base station; the wireless private network base station is connected with the server; the portable individual-soldier surveying device comprises a wireless router, CPE, a power supply module, an individual-soldier backpack and a telescopic rod; one end of the wireless router is connected with the mobile terminal, and the other end of the wireless router is connected with the power supply module; one end of the CPE is connected with the wireless router, and the other end of the CPE is connected with the wireless private network base station; the wireless router and the CPE are both arranged in the individual backpack; the CPE is arranged on a telescopic rod, and the telescopic rod is arranged outside the individual backpack; the invention also provides a wireless communication private network surveying method. The invention has the advantages that: the workload and the danger coefficient of installing and debugging the user terminal are reduced, and the service opening efficiency of the user terminal is improved.

Description

Wireless communication private network surveying system and method

Technical Field

The invention relates to the technical field of wireless communication, in particular to a wireless communication private network surveying system and a wireless communication private network surveying method.

Background

The wireless communication private network is a set of special wireless broadband private network system which is made according to the characteristics of the radio and television frequency spectrum resources, the radio and television service types, the terminal distribution and the like, and realizes the bidirectional transmission of the radio and television services such as data, video and the like. In the process of constructing a private wireless communication network, the construction of a wired optical fiber transmission network, a base station and a network management system is generally completed first, and then the installation and service access of a user terminal of the private wireless communication network are performed.

The following survey methods have traditionally been employed: the engineering personnel arrive at the site with the user terminal, select the installation position according to engineering experience, debug and test on the site, manually record the user terminal information, the installation address, the dimensional information, the test data and the like, perform data sorting at the later stage, and perform user account opening and other operations through a network management system.

The conventional method has the following disadvantages: 1. because the method of firstly installing and then debugging is adopted, in order to seek the optimal installation position of the user terminal, engineering personnel with rich engineering experience is required to guide and select the optimal experience installation point on site, simple installation is required to be carried out firstly after selection, and repeated debugging and testing are required until the wireless signal quality index meets the requirement, and then fixed installation is carried out, the mode is often limited by the installation environment, the installation position needs to be adjusted repeatedly, in order to ensure the signal receiving quality of the terminal, the installation point is generally selected on a roof with less shielding and spacious, and manual repeated movement and disassembly and assembly are required, the workload is large, and the risk coefficient of the safety of the engineering personnel is increased by long-time roof operation; 2. data tested by the user terminal is easy to make mistakes and even lose through a manual recording method, and the later data arrangement workload is large, so that the service opening efficiency of the user terminal is seriously influenced.

Disclosure of Invention

One of the technical problems to be solved by the present invention is to provide a wireless communication private network surveying system, which reduces workload and risk coefficient for installing and debugging a user terminal, and improves efficiency of opening a user terminal service.

The invention realizes one of the technical problems as follows: a wireless communication private network surveying system comprises a mobile terminal, a portable individual-soldier surveying device, a wireless private network base station and a server; one end of the portable individual soldier surveying device is connected with a mobile terminal, and the other end of the portable individual soldier surveying device is connected with the wireless private network base station; the wireless private network base station is connected with a server;

the portable individual soldier surveying device comprises a wireless router, a CPE (customer premises equipment) for detecting the signal quality of a wireless communication private network, a power supply module, an individual soldier backpack and a telescopic rod; one end of the wireless router is connected with the mobile terminal, and the other end of the wireless router is connected with the power supply module; one end of the CPE is connected with a wireless router, and the other end of the CPE is connected with the wireless private network base station; the wireless router and the CPE are both arranged in an individual backpack; CPE is installed on the telescopic link, the telescopic link is installed outside individual soldier's knapsack.

Further, the mobile terminal is a mobile phone, a tablet computer, a notebook computer or an intelligent watch.

Further, the wireless router is a miniature 2.4G wireless router.

Furthermore, the CPE is provided with at least one LED lamp for indicating the signal quality of the wireless communication private network.

Further, the power module includes a POE power supply unit and a battery charging protection unit; one end of the battery charging protection unit is connected with the POE power supply unit, and the other end of the battery charging protection unit is connected with the wireless router.

Further, the connection between one end of the CPE and the wireless router specifically includes:

one end of the CPE is connected with the wireless router through a POE power supply Ethernet line.

The second technical problem to be solved by the present invention is to provide a wireless communication private network surveying method, which reduces the workload and risk coefficient for installing and debugging the user terminal, and improves the efficiency of opening the user terminal service.

The invention realizes the second technical problem in the following way: a wireless communication private network surveying method using the surveying system, the method comprising the steps of:

step S10, the mobile terminal sends a detection instruction of the signal quality of the wireless communication private network to the CPE through the wireless router;

step S20, the CPE detects the signal quality of the wireless communication private network according to the received detection instruction, indicates whether the detection is qualified or not in real time through an LED lamp, and sends the detection data to the mobile terminal and the server respectively;

step S30, acquiring longitude and latitude information of a detection point and geographical position information corresponding to the longitude and latitude information through the mobile terminal;

step S40, scanning the label through the mobile terminal to obtain the basic information of the user terminal;

step S50, the mobile terminal sends latitude and longitude information, geographical position information and basic information to a server;

and step S60, the server opens and brings on-line the service for the installed user terminal according to the received detection data, the latitude and longitude information, the geographical position information and the basic information.

Further, the step S10 specifically includes:

step S11, the mobile terminal is connected to the wireless router through the 2.4G network, the wireless router dynamically allocates IP to the mobile terminal through DHCP service, and provides data routing and data forwarding functions;

step S12, the mobile terminal sends a detection instruction of the signal quality of the wireless communication private network to the CPE through the wireless router by using the dynamically allocated IP; the detection instruction is specifically used for detecting signal strength, signal background noise and data flow.

Further, the step S30 is specifically:

and acquiring longitude and latitude information of the detection point through a GPS (global positioning system) locator or a Beidou locator of the mobile terminal, and acquiring geographic position information corresponding to the longitude and latitude information through a map of the mobile terminal.

Further, in the step S40, the label is a two-dimensional code, a barcode, or a character string; the basic information at least comprises a user terminal model, a user terminal serial number and an MAC address.

The invention has the advantages that:

1. the portable individual-soldier surveying device is used for detecting the signal intensity, the signal background noise and the data flow of a wireless communication private network, and indicating whether the detection is qualified or not in real time through the LED lamp, detecting the qualified position, namely the optimal installation position of the user terminal, and then installing the user terminal.

2. The method comprises the steps that longitude and latitude information, geographic position information and basic information are obtained through a mobile terminal and are sent to a server, CPE detects signal quality of a wireless communication private network and sends detection data to the server, the server conducts service opening and on-line operation on an installed user terminal according to the received detection data, the longitude and latitude information, the geographic position information and the basic information, and compared with the traditional method that relevant data are recorded manually, and user account opening and other operations are conducted through a network management system after data arrangement is completed, the method simplifies the step flow of user terminal service opening, and greatly improves the efficiency of user terminal service opening.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a schematic block circuit diagram of a wireless communication private network survey system of the present invention.

Fig. 2 is a flow chart of a wireless communication private network surveying method of the present invention.

Detailed Description

Referring to fig. 1 to 2, a preferred embodiment of a wireless communication private network surveying system according to the present invention includes a mobile terminal, a portable individual surveying device, a wireless private network base station, and a server; one end of the portable individual soldier surveying device is connected with a mobile terminal, and the other end of the portable individual soldier surveying device is connected with the wireless private network base station; the wireless private network base station is connected with a server; the mobile terminal is used for acquiring longitude and latitude information, geographic position information and basic information and displaying the detection data of the portable individual soldier surveying device in real time; the portable individual surveying device is used for detecting the signal quality of the wireless communication private network; the wireless private network base station is used for communication between the mobile terminal and the server; the server is used for storing the detection data of the signal quality of the wireless communication private network and carrying out remote service opening and online on the user terminal;

the portable individual soldier surveying device comprises a wireless router, a CPE (customer premises equipment) for detecting the signal quality of a wireless communication private network, a power supply module, an individual soldier backpack and a telescopic rod; one end of the wireless router is connected with the mobile terminal, and the other end of the wireless router is connected with the power supply module; one end of the CPE is connected with a wireless router, and the other end of the CPE is connected with the wireless private network base station; the wireless router and the CPE are both arranged in an individual backpack; CPE is installed on light-duty telescopic link, the telescopic link is installed outside individual soldier's knapsack. The wireless router is used for providing a 2.4G wireless network and a data routing forwarding function for the mobile terminal; the power supply module is used for providing power supply for the wireless router and the CPE; the individual backpack is used for carrying the wireless router and the CPE; the telescopic rod is used for searching the optimal installation position for the CPE.

The mobile terminal is a mobile phone, a tablet computer, a notebook computer or an intelligent watch, and a GPS (global positioning system) locator or a Beidou locator is arranged in the mobile terminal.

The wireless router is a miniature 2.4G wireless router, and the burden of engineering personnel for carrying the portable individual soldier surveying device is greatly reduced.

The CPE is provided with at least one LED lamp used for indicating the signal quality of the wireless communication private network, the LED lamp is green when the detection is qualified, and the LED lamp is red when the detection is qualified.

The power module comprises a POE power supply unit and a battery charging protection unit; one end of the battery charging protection unit is connected with the POE power supply unit, and the other end of the battery charging protection unit is connected with the wireless router; the POE power supply unit is used for providing voltage stabilization power supply, power supply short circuit and overload protection for the wireless router and the CPE; the battery charging protection unit is used for providing reliable charging management, power supply under-voltage alarm and fault protection.

One end of the CPE is connected with the wireless router specifically as follows:

one end of the CPE is connected with the wireless router through a POE power supply Ethernet line, so that power supply and data transmission share one cable, and the connection between the devices is simplified.

The invention discloses a preferred embodiment of a wireless communication private network surveying method, which comprises the following steps:

step S10, the mobile terminal sends a detection instruction of the signal quality of the wireless communication private network to the CPE through the wireless router and a threshold value group for judging whether the detection instruction is qualified or not; the threshold value group comprises a first threshold value used for judging whether the signal strength (RSSI) is qualified or not, a second threshold value used for judging whether the signal background noise is qualified or not and a third threshold value used for judging whether the data flow is qualified or not;

step S20, the CPE detects the signal quality of the wireless communication private network according to the received detection instruction and generates detection data, judges whether the detection data is qualified or not through the threshold group, indicates whether the detection is qualified or not through an LED lamp in real time, and respectively sends the detection data to the mobile terminal and the server; if the detection data is unqualified, adjusting the detection position to continue detection, and searching for a qualified installation position; if the detected data is qualified, the step S30 is executed; the mobile terminal displays the detection data in real time;

step S30, acquiring longitude and latitude information of a detection point through a GPS (global positioning system) locator or a Beidou locator of the mobile terminal, and acquiring geographical position information corresponding to the longitude and latitude information through a map of the mobile terminal;

step S40, scanning the label through the mobile terminal to obtain the basic information of the user terminal; the label is a two-dimensional code, a bar code or a character string; the basic information at least comprises a user terminal model, a user terminal serial number and an MAC address;

step S50, the mobile terminal sends latitude and longitude information, geographical position information and basic information to a server;

and step S60, the server opens and gets online the service of the installed user terminal according to the received detection data, longitude and latitude information, geographical position information, the pre-stored service channel VLAN and the basic information.

The step S10 specifically includes:

step S11, the mobile terminal is connected to the wireless router through the 2.4G network, the wireless router dynamically allocates IP to the mobile terminal through DHCP service, and provides data routing and data forwarding functions;

step S12, the mobile terminal sends a detection instruction of the signal quality of the wireless communication private network to the CPE through the wireless router by using the dynamically allocated IP; the detection instruction is specifically used for detecting signal strength, signal background noise and data flow.

In summary, the invention has the advantages that:

1. the portable individual-soldier surveying device is used for detecting the signal intensity, the signal background noise and the data flow of a wireless communication private network, and indicating whether the detection is qualified or not in real time through the LED lamp, detecting the qualified position, namely the optimal installation position of the user terminal, and then installing the user terminal.

2. The method comprises the steps that longitude and latitude information, geographic position information and basic information are obtained through a mobile terminal and are sent to a server, CPE detects signal quality of a wireless communication private network and sends detection data to the server, the server conducts service opening and on-line operation on an installed user terminal according to the received detection data, the longitude and latitude information, the geographic position information and the basic information, and compared with the traditional method that relevant data are recorded manually, and user account opening and other operations are conducted through a network management system after data arrangement is completed, the method simplifies the step flow of user terminal service opening, and greatly improves the efficiency of user terminal service opening.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (3)

1. A wireless communication private network surveying method is characterized in that: the method needs to use a wireless communication private network surveying system, which comprises a mobile terminal, a portable individual surveying device, a wireless private network base station and a server; one end of the portable individual soldier surveying device is connected with a mobile terminal, and the other end of the portable individual soldier surveying device is connected with the wireless private network base station; the wireless private network base station is connected with a server;

the portable individual soldier surveying device comprises a wireless router, a CPE (customer premises equipment) for detecting the signal quality of a wireless communication private network, a power supply module, an individual soldier backpack and a telescopic rod; one end of the wireless router is connected with the mobile terminal, and the other end of the wireless router is connected with the power supply module; one end of the CPE is connected with a wireless router, and the other end of the CPE is connected with the wireless private network base station; the wireless router and the CPE are both arranged in an individual backpack; the CPE is installed on a telescopic rod, and the telescopic rod is installed outside the individual backpack;

the mobile terminal is a mobile phone, a tablet computer, a notebook computer or an intelligent watch;

the wireless router is a miniature 2.4G wireless router;

the CPE is provided with at least one LED lamp for indicating the signal quality of the wireless communication private network;

the power module comprises a POE power supply unit and a battery charging protection unit; one end of the battery charging protection unit is connected with the POE power supply unit, and the other end of the battery charging protection unit is connected with the wireless router;

one end of the CPE is connected with the wireless router specifically as follows:

one end of the CPE is connected with the wireless router through a POE power supply Ethernet line;

the method comprises the following steps:

step S10, the mobile terminal sends a detection instruction of the signal quality of the wireless communication private network to the CPE through the wireless router;

step S20, the CPE detects the signal quality of the wireless communication private network according to the received detection instruction, indicates whether the detection is qualified or not in real time through an LED lamp, and sends the detection data to the mobile terminal and the server respectively;

step S30, acquiring longitude and latitude information of a detection point and geographical position information corresponding to the longitude and latitude information through the mobile terminal;

step S40, scanning the label through the mobile terminal to obtain the basic information of the user terminal;

step S50, the mobile terminal sends latitude and longitude information, geographical position information and basic information to a server;

step S60, the server opens and gets online the service for the installed user terminal according to the received detection data, longitude and latitude information, geographical location information and basic information;

the step S10 specifically includes:

step S11, the mobile terminal is connected to the wireless router through the 2.4G network, the wireless router dynamically allocates IP to the mobile terminal through DHCP service, and provides data routing and data forwarding functions;

step S12, the mobile terminal sends a detection instruction of the signal quality of the wireless communication private network to the CPE through the wireless router by using the dynamically allocated IP; the detection instruction is specifically used for detecting signal strength, signal background noise and data flow.

2. A wireless communication private network surveying method according to claim 1, characterized by: the step S30 specifically includes:

and acquiring longitude and latitude information of the detection point through a GPS (global positioning system) locator or a Beidou locator of the mobile terminal, and acquiring geographic position information corresponding to the longitude and latitude information through a map of the mobile terminal.

3. A wireless communication private network surveying method according to claim 1, characterized by: in step S40, the label is a two-dimensional code, a barcode, or a character string; the basic information at least comprises a user terminal model, a user terminal serial number and an MAC address.

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