CN111465028A

CN111465028A - Method and device for determining installation position of 5G customer front-end device and computer equipment

Info

Publication number: CN111465028A
Application number: CN202010562982.9A
Authority: CN
Inventors: 高华辰; 王心刚; 周泳; 曾庆初; 周冠华
Original assignee: Yichen Shenzhen Technology Co ltd
Current assignee: Yichen Shenzhen Technology Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-07-28
Anticipated expiration: 2040-06-19
Also published as: CN111465028B

Abstract

The application relates to a method and a device for determining the installation position of a 5G client front-end device, a computer device and a storage medium. The method comprises the following steps: acquiring a first place distribution map of a corresponding installation place of customer premises equipment sent by a terminal; obtaining a first place signal diagram according to the first place distribution diagram and a first signal scanning result of the client front equipment, and issuing the first place signal diagram to the terminal; receiving a second place distribution map returned by the terminal; the second place distribution diagram is obtained by the terminal corresponding to the user through layout adjustment on the first place distribution diagram based on the first place signal diagram; obtaining a second place signal map according to the second place distribution map and a second signal scanning result of the customer premises equipment; and determining a target installation position of the client front-end equipment in the installation site according to the second site signal diagram, and transmitting the target installation position to the terminal. By adopting the method, the installation position of the customer premises equipment can be accurately determined, and the installation efficiency of the customer premises equipment is improved.

Description

Method and device for determining installation position of 5G customer front-end device and computer equipment

Technical Field

The present application relates to the field of communications technologies, and in particular, to a method and an apparatus for determining a device installation location of a 5G client front end device, a computer device, and a storage medium.

Background

With the development of communication technology, 5G (5 th generation mobile networks) has become popular, and related devices are becoming perfect. Customer Premise Equipment (CPE) is a commonly used 5G access device and receives increasing attention. The CPE is mainly responsible for relaying a mobile network signal, such as a 5G signal, and converting the signal into a Wi-Fi (Wireless Fidelity) signal, and the terminal device may access the mobile network through the Wi-Fi signal to enjoy a mobile network service.

At present, the switching of signals and many influencing factors when the client front-end equipment accessed to 5G is installed result in that the installation position of the client front-end equipment cannot be accurately determined, the user needs to repeatedly adjust the installation position, the installation process of the client front-end equipment is complicated, and the installation efficiency is low.

Disclosure of Invention

In view of the above, it is desirable to provide a method, an apparatus, a computer device, and a storage medium for determining a client front-end device installation position, which can accurately determine the client front-end device installation position and improve the installation efficiency of the client front-end device.

A5G customer premises equipment installation position determining method comprises the following steps:

acquiring a first place distribution map of a corresponding installation place of customer premises equipment sent by a terminal;

obtaining a first place signal diagram according to the first place distribution diagram and a first signal scanning result of the client front equipment, and issuing the first place signal diagram to the terminal;

receiving a second place distribution map returned by the terminal; the second place distribution diagram is obtained by the terminal corresponding to the user through layout adjustment on the first place distribution diagram based on the first place signal diagram;

obtaining a second place signal map according to the second place distribution map and a second signal scanning result of the customer premises equipment;

and determining a target installation position of the client front-end equipment in the installation site according to the second site signal diagram, and transmitting the target installation position to the terminal.

In one embodiment, obtaining the first venue signal plot from the first venue profile and the first signal scan of the customer premises equipment comprises:

acquiring a first signal scanning result of customer premises equipment in an installation site;

constructing a three-dimensional signal intensity map according to the first signal scanning result;

determining each place object and corresponding object distribution information in the installation place according to the first place distribution map;

and mapping each place object and corresponding object distribution information to a three-dimensional signal intensity map to obtain a first place signal map.

In one embodiment, mapping each location object and corresponding object distribution information into a three-dimensional signal intensity map, and obtaining a first location signal map includes:

determining the position of each place object in the three-dimensional signal intensity map according to the object distribution information;

determining an object occupation area of the site object in the three-dimensional signal intensity diagram according to the attribute information of the site object and the corresponding position;

and updating the signal intensity content displayed in the three-dimensional signal intensity map according to the object occupation area corresponding to each site object to obtain a first site signal map.

In one embodiment, the method for determining the installation position of the 5G client front-end device further includes:

according to the attribute information corresponding to each place object, determining a non-fixed interference object from each place object;

determining a target adjustment position from the first venue signal plot based on the non-stationary interfering object;

and generating an object distribution adjusting track according to the current distribution position and the target adjusting position of the non-fixed interference object, and marking the object distribution adjusting track in the first place signal diagram.

In one embodiment, determining the target installation location of the customer premises equipment in the installation site from the second site signal map comprises:

determining a pre-installation location from the second site signal map; the intensity of the signal corresponding to the pre-installation position is greater than a preset signal intensity threshold value;

determining equipment adjusting parameters of the customer premises equipment;

performing signal adjustment on the signals corresponding to the pre-installation positions according to the equipment adjustment parameters to obtain adjustment signals corresponding to the pre-installation positions;

determining a target installation position from the pre-installation positions based on the adjustment signals; and the adjusting signal corresponding to the target installation position meets the preset equipment installation condition.

In one embodiment, the device adjustment parameters include antenna array parameters, antenna division parameters, and power amplifier gain parameters; the target installation position comprises three-dimensional position information and installation angle information; transmitting the target installation location to the terminal includes:

obtaining a target antenna array parameter, a target antenna division parameter and a target power amplifier gain parameter according to a device adjusting parameter corresponding to the adjusting signal of the target installation position;

and sending the target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information to the terminal.

acquiring a third signal scanning result of the client front-end equipment at the target installation position;

obtaining a third site signal map according to the second site distribution map and the third signal scanning result;

when the third place signal diagram is not matched with the second place signal diagram, marking an area which is not matched with the second place signal diagram in the third place signal diagram to obtain a marked third place signal diagram;

and sending the marked third place signal diagram to the terminal.

A 5G customer premises device installation location determination apparatus, the apparatus comprising:

the system comprises a first distribution diagram acquisition module, a first distribution diagram acquisition module and a second distribution diagram acquisition module, wherein the first distribution diagram acquisition module is used for acquiring a first place distribution diagram of an installation place corresponding to a customer premises equipment sent by a terminal;

the first signal diagram issuing module is used for obtaining a first place signal diagram according to the first place distribution diagram and a first signal scanning result of the client front equipment and issuing the first place signal diagram to the terminal;

the second distribution diagram receiving module is used for receiving a second place distribution diagram returned by the terminal; the second place distribution diagram is obtained by the terminal corresponding to the user through layout adjustment on the first place distribution diagram based on the first place signal diagram;

the first signal diagram obtaining module is used for obtaining a second place signal diagram according to the second place distribution diagram and a second signal scanning result of the client front-end equipment;

and the installation position determining module is used for determining the target installation position of the client front-end equipment in the installation place according to the second place signal diagram and sending the target installation position to the terminal.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

The 5G customer premises equipment installation position determining method, apparatus, computer device and storage medium, according to a first location distribution diagram of an installation location corresponding to the customer premises equipment sent by the terminal and a first signal scanning result of the customer premises equipment, obtain a first location signal diagram, send the first location signal diagram to the terminal, receive a second location distribution diagram obtained by adjusting the layout of the first location distribution diagram based on the first location signal diagram returned by the terminal, obtain a second location signal diagram according to the second location distribution diagram and a second signal scanning result of the customer premises equipment, and send a target installation position of the customer premises equipment in the installation location determined according to the second location signal diagram to the terminal. The signal condition of the installation place can be visually displayed at the terminal by descending the first place signal diagram obtained according to the first place distribution diagram of the installation place corresponding to the customer premises equipment and the first signal scanning result to the terminal, so that the layout adjustment of a signal interference object is facilitated, the second place distribution diagram obtained by performing the layout adjustment on the first place distribution diagram based on the first place signal diagram returned by the terminal is received, the target installation position is determined according to the second place signal diagram obtained according to the second place distribution diagram and the second signal scanning result of the customer premises equipment, the target installation position of the customer premises equipment can be accurately determined according to the second place signal diagram obtained after the layout adjustment, the installation process of the customer premises equipment is simplified, and the installation efficiency of the customer premises equipment is improved.

Drawings

Fig. 1 is a diagram of an application environment of a method for determining an installation location of a 5G client front-end device in an embodiment;

fig. 2 is a schematic flowchart of a method for determining an installation position of a 5G client front-end device in an embodiment;

FIG. 3 is a schematic flow chart illustrating a process for obtaining a first venue signal profile in one embodiment;

fig. 4 is a block diagram showing a configuration of a 5G client front-end device installation position determination apparatus according to an embodiment;

FIG. 5 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The method for determining the installation position of the 5G client front-end device can be applied to the application environment shown in fig. 1. The CPE device 102 needs to be installed in an installation site, the CPE device 102 may communicate with the base station 104, sense signals of the base station 104, and the terminal 106 communicates with the server 108 through a network. The terminal 106 sends a first site distribution diagram of an installation site of the CPE device 102 to the server 106, the server 108 obtains a first site signal diagram according to the first site distribution diagram sent by the terminal 106 and a first signal scanning result obtained by the CPE device 104 by scanning signals of the base station 104, the server 108 issues the first site signal diagram to the terminal 106 and receives a second site distribution diagram returned by the terminal 106 and obtained by performing layout adjustment on the first site distribution diagram based on the first site signal diagram, and the server 108 obtains a second site signal diagram according to the second site distribution diagram and a second signal scanning result of the CPE device 102 and sends a target installation position of the CPE device 102 in the installation site determined according to the second site signal diagram to the terminal 106. The terminal 106 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the server 108 may be implemented by an independent server or a server cluster composed of a plurality of servers.

In one embodiment, as shown in fig. 2, a method for determining an installation location of a 5G client front-end device is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:

step 202, a first place distribution diagram of the installation place corresponding to the customer premises equipment sent by the terminal is obtained.

The 5G client front-end device is a client front-end device accessing to a 5G network, and the installation site determines a site to which the installation position belongs for the client front-end device, such as various sites requiring installation of the client front-end device, such as apartment houses, offices, laboratories, factories, and the like. The installation place is determined according to the installation requirement of the customer front equipment. The first location distribution map is a distribution map of installation locations, and may specifically include area division information of the locations and information of various location objects in the locations, such as types, sizes, distribution positions, and the like of the various location objects. The various site objects in the site can be object objects in an installation site, such as sofas, televisions, walls, doors, windows, and the like in apartment houses, and industrial equipment in factories. Different installation places correspond to different first place distribution maps, and the first place distribution maps record the region division information in the installation places and the information of various place objects in the places.

Specifically, the terminal determines an installation place corresponding to the customer premises equipment accessing the 5G network, and acquires a first place distribution map of the installation place, specifically, the terminal may perform layout analysis according to the place information of the installation place, and acquire the first place distribution map according to a result of the layout analysis, or may directly query from an installation place database in which the place information corresponding to various installation places is recorded to acquire the first place distribution map. The terminal sends a first place distribution map of the installation place to the server, and the server receives the first place distribution map. In addition, during specific implementation, the terminal may send the location identifier of the installation location corresponding to the client front-end device to the server, and the server may obtain the first location distribution map corresponding to the installation location according to the location identifier.

And step 204, obtaining a first place signal diagram according to the first place distribution diagram and the first signal scanning result of the client front-end equipment, and issuing the first place signal diagram to the terminal.

The first signal scanning result is a scanning result obtained by scanning a signal when the customer premises equipment is placed in the installation site, for example, placing the CPE equipment in the installation site, and scanning and receiving a 5G signal sent by the base station in the installation site by the CPE equipment to obtain a scanning result of the 5G signal, that is, the first signal scanning result. The first signal scan result is based on the scan result of the installation site in the layout of the first site distribution map, and different layouts, where the site objects in the installation site may cause obstruction or interference to the signal, differ. For example, in an apartment house, the base station signal strength is high for a location close to the base station and having few interfering objects with the base station; for the interference objects far away from the base station and between the interference objects and the base station, if more walls are spaced, the signal intensity of the base station at the corresponding position is lower. The first place signal map is constructed based on the first place distribution map and the first signal scanning result, information of the first place distribution map and the first signal scanning result is fused, and the first place signal map can reflect signal conditions, such as signal strength, of each position in the first place distribution map and signal shielding interference conditions of each place object in the installation place under the layout, such as signal strength change conditions of different angles or different positions around the scene object.

Specifically, after the server obtains a first location distribution map of an installation location corresponding to the customer premises equipment, a first signal scanning result obtained by signal scanning of the customer premises equipment in the installation location is obtained, the first location distribution map and the first signal scanning result are combined to obtain a first location signal map, specifically, the area division information in the first location distribution map and the object in the location can be mapped into the first signal scanning result, so that the first location signal map in which the first location distribution map and the first signal scanning result are fused is obtained, and the server issues the obtained first location signal map to the terminal. The terminal can visually display the first place signal diagram issued by the server, and a user of the terminal can visually know the signal shielding and interference conditions of each place object to the base station in the installation place based on the displayed first place signal diagram, so that the user can determine the installation position of the client front-end equipment in the installation place according to the first place signal diagram or adjust the layout of the installation place to determine the corresponding installation position of the client front-end equipment.

Step 206, receiving a second place distribution map returned by the terminal; the second place distribution map is obtained by the terminal corresponding to the user through layout adjustment of the first place distribution map based on the first place signal map.

The second location distribution map is obtained by the terminal corresponding to the user performing layout adjustment on the first location distribution map based on the first location signal map, that is, the layout of the second location distribution map is different from the layout of the first location distribution map. The information on the region division in the installation location and the information on various location objects in the location described in the second location distribution map are obtained by adjusting the first location distribution map.

Specifically, after the server issues the first location signal map to the terminal, the user corresponding to the terminal performs layout adjustment on the first location distribution map based on the first location signal map to obtain a second location distribution map, specifically, the user performs adjustment on the area division information in the installation location and the information of various location objects in the location according to the first location distribution map, such as changing the area division mode, changing the type, number, and distribution position of the location objects, and the like, so as to obtain the correspondingly adjusted second location distribution map according to the adjusted area division information and the information of the various location objects in the location, and returns to the server through the terminal, and the server receives the second location distribution map returned by the terminal. The second location distribution map records the area division information in the installation location and the information of various location objects in the location, which are adjusted by the user.

And step 208, obtaining a second place signal map according to the second place distribution map and the second signal scanning result of the customer premises equipment.

The second signal scanning result is a scanning result obtained by scanning the signal by the client front-end device in the installation place, the area division information of the installation place and the information of various place objects in the place are adjusted by the terminal corresponding to the user, the signal condition of the signal sent by the base station in the installation place is correspondingly changed, and the second signal scanning result obtained by scanning the signal of the base station by the client front-end device in the installation place is also different from the first signal scanning result. The second signal scanning result corresponds to the second location distribution map and is a signal scanning result when the customer premises equipment is at the second location distribution map at the installation location. The second location signal map fuses the information of the second location distribution map and the second signal scanning result, and the second location signal map can reflect the signal conditions, such as signal strength, of each position in the second location distribution map, and the shielding interference conditions of each location object in the installation location under the layout, such as the signal strength variation conditions of different angles or different positions around the scene object.

Specifically, after obtaining the second location distribution map after the installation location corresponding to the customer premises equipment is adjusted, the server obtains a second signal scanning result obtained by performing signal scanning on the customer premises equipment in the installation location, and obtains the second location signal map by combining the second location distribution map and the second signal scanning result, and specifically, the server may map the area division information in the second location distribution map and the object in the location into the second signal scanning result, thereby obtaining the second location signal map in which the second location distribution map and the second signal scanning result are fused.

And step 210, determining a target installation position of the client front-end equipment in the installation site according to the second site signal diagram, and sending the target installation position to the terminal.

After the second site signal diagram is obtained, the server determines a target installation position of the client front-end equipment in the installation site based on the second site signal diagram, wherein the target installation position is a position suitable for installing the client front-end equipment in the installation site, specifically, a position with the highest signal intensity of a receiving base station, and the server sends the determined target installation position to the terminal so that a user of the terminal installs the client front-end equipment in the installation site according to the target installation position.

In the method for determining the installation position of the 5G customer premises equipment, a first location distribution map of the installation location corresponding to the customer premises equipment and sent by the terminal is obtained according to a first signal scanning result of the customer premises equipment, the first location signal map is sent to the terminal, a second location distribution map obtained by adjusting the layout of the first location distribution map based on the first location signal map and returned by the terminal is received, a second location signal map is obtained according to the second location distribution map and a second signal scanning result of the customer premises equipment, and a target installation position of the customer premises equipment in the installation location is determined according to the second location signal map and sent to the terminal. The signal condition of the installation place can be visually displayed at the terminal by descending the first place signal diagram obtained according to the first place distribution diagram of the installation place corresponding to the customer premises equipment and the first signal scanning result to the terminal, so that the layout adjustment of a signal interference object is facilitated, the second place distribution diagram obtained by performing the layout adjustment on the first place distribution diagram based on the first place signal diagram returned by the terminal is received, the target installation position is determined according to the second place signal diagram obtained according to the second place distribution diagram and the second signal scanning result of the customer premises equipment, the target installation position of the customer premises equipment can be accurately determined according to the second place signal diagram obtained after the layout adjustment, the installation process of the customer premises equipment is simplified, and the installation efficiency of the customer premises equipment is improved.

In one embodiment, deriving the first venue signal plot from the first venue profile and the first signal scan of the customer premises equipment comprises: acquiring a first signal scanning result of customer premises equipment in an installation site; constructing a three-dimensional signal intensity map according to the first signal scanning result; determining each place object and corresponding object distribution information in the installation place according to the first place distribution map; and mapping each place object and corresponding object distribution information to a three-dimensional signal intensity map to obtain a first place signal map.

In this embodiment, a three-dimensional signal intensity map is constructed according to a first signal scanning result of the client front-end device, and each location object determined according to the first location distribution map and corresponding object distribution information are mapped into the three-dimensional signal intensity map to obtain the first location signal map, so that fusion of the first location distribution map and the first signal scanning result is achieved. The three-dimensional signal intensity graph is a three-dimensional space image, specifically, a coordinate system is established by using a three-dimensional space, the signal intensity of each three-dimensional position is taken as a dependent variable of a coordinate axis, and the three-dimensional coordinate of each three-dimensional position is taken as an independent variable. The signal strength at each three-dimensional location in the installation site can be determined from the three-dimensional signal strength map. In addition, in order to reduce the data processing amount for constructing the three-dimensional signal intensity map and reduce the data processing difficulty, the three-dimensional signal intensity map can also be obtained by drawing according to a certain spacing distance. The site object is an object in an installation site, and specifically can include various types of objects, such as walls, furniture, doors, windows and the like; the object distribution information is the position of the corresponding place object in the installation place. Different installation sites correspond to different first site distribution maps, namely different site objects and corresponding object distribution information exist.

Specifically, when fusing the first location distribution map and the first signal scanning result, the server obtains a first signal scanning result of the client front-end device in the installation location, and the first signal scanning result is obtained by placing the client front-end device in the installation location for signal scanning. In a specific implementation, the first signal scanning result may be directly sent to the server by the client pre-device through the network, or the terminal may forward the first signal scanning result to the server. And the server constructs a three-dimensional signal intensity map according to the obtained first signal scanning result, and the three-dimensional signal intensity map records the signal intensity corresponding to the three-dimensional position in the installation site. In a specific implementation, the server may select feature points from the installation site, for example, select feature points in the installation site based on the first site distribution map, determine signal strengths of the feature points from the first signal scanning result, and construct a three-dimensional signal strength map based on the three-dimensional positions of the feature points and the corresponding signal strengths. In addition, the server can also directly construct a three-dimensional signal intensity map according to the three-dimensional positions and the corresponding signal intensities of all the position points in the first signal scanning result.

On the other hand, the server determines each location object and corresponding object distribution information in the installation location according to the first location distribution map, and specifically, may identify each type of location object from the first location distribution map, and determine corresponding object distribution information for each location object. For example, various location objects such as sofas, televisions, air conditioners, walls, tables, chairs, and the like are determined from the first location distribution map of the apartment house, and object distribution information corresponding to the respective location objects, that is, the positions of the respective location objects in the installation location, is determined.

After the three-dimensional signal intensity map corresponding to the installation site and the distribution information of the objects in each site and the corresponding objects are obtained, the server maps the objects in each site and the corresponding distribution information of the objects in each site to the three-dimensional signal intensity map, so that fusion of the first site distribution map and the first signal scanning result is realized, and the first site signal map is obtained. Specifically, the server may add each location object and corresponding object distribution information to the three-dimensional signal intensity map, and update the three-dimensional signal intensity map to obtain the first location signal map. The first site signal map may reflect signal conditions, such as signal strength, at various locations in the first site profile, and signal-blocking interference conditions, such as signal strength variation conditions at different angles or at different locations around the scene object, for various site objects in the installation site under the layout.

In one embodiment, as shown in fig. 3, the step of obtaining a first location signal map, that is, mapping each location object and corresponding object distribution information into a three-dimensional signal intensity map, to obtain the first location signal map includes:

and step 302, determining the position of each place object in the three-dimensional signal intensity map according to the object distribution information.

In this embodiment, an object occupation region of a place object in an installation place is determined according to the object distribution information and the attribute information of the place object, and the signal intensity content shown in the three-dimensional signal intensity map is updated based on the object occupation region of each place object, so as to obtain a first place signal map. The attribute information is information describing the inherent characteristics of the place object, such as information describing the type, size, shape and volume of the place object, and the size and shape of the space occupied by the place object in the space can be determined according to the attribute information of the place object; the object occupying region is a region occupied by the site object in a space of the installation site, and the object occupying region may be a three-dimensional region. The signal intensity content may correspond to the signal intensity value of the signal at each location, or the color corresponding to the signal intensity, and different signal intensities may be identified by different colors.

Specifically, when the server updates the three-dimensional signal intensity map, the server determines the position of each place object in the three-dimensional signal intensity map according to the object distribution information. The position is determined according to the object distribution information in the first location distribution map, and the position is generally a one-dimensional position or a two-dimensional position, that is, in the first location distribution map, the object distribution information of each location object may be a position of one point or a position of one graph. The position of the site object in the three-dimensional signal strength map reflects the two-dimensional position of the site object, and the three-dimensional position of the site object in the three-dimensional space cannot be accurately determined.

And step 304, determining an object occupation area of the place object in the three-dimensional signal intensity map according to the attribute information and the corresponding position of the place object.

After the position of the site object is obtained, the server acquires the attribute information of the site object, wherein the attribute information reflects the type, size, shape and volume of the site object, and the corresponding three-dimensional site object can be simulated and reconstructed in a three-dimensional space according to the attribute information. The attribute information may be acquired from object information of the place object, and the object information of the place object may be prestored in the place object database.

Specifically, the server determines an object occupation area of the place object in the three-dimensional signal intensity map according to the attribute information and the corresponding position of the place object, wherein the object occupation area is a three-dimensional space area actually occupied by the place object in the three-dimensional space. In specific implementation, the server can simulate and reconstruct a three-dimensional place object according to the attribute information of the place object, and the three-dimensional place object is arranged at a corresponding position of the place object in the three-dimensional signal intensity diagram, so that a three-dimensional space area actually occupied by the place object is simulated and restored in the three-dimensional signal intensity diagram.

And step 306, updating the signal intensity content displayed in the three-dimensional signal intensity map according to the object occupied area corresponding to each place object to obtain a first place signal map.

After the object occupation area corresponding to each place object is determined, the server updates the signal intensity content displayed in the three-dimensional signal intensity map based on the object occupation area corresponding to each place object, wherein the signal intensity content displayed in the three-dimensional signal intensity map is the signal intensity information of each position point displayed in the three-dimensional signal intensity map, and specifically can be an equal signal intensity line formed by connecting position points with the same signal intensity. The signal intensity content displayed in the three-dimensional signal intensity map is updated, for example, the originally displayed signal intensity content in the object occupation area can be hidden, that is, the signal intensity in the object occupation area corresponding to each place object in the three-dimensional signal intensity map is not displayed, for example, the signal intensity of a position point in a wall body is hidden, and for example, the signal intensity of a position point in a sofa is hidden, so that the updated first place signal map only displays the signal intensity of the position point which does not belong to the place object, thereby more intuitively displaying the signal intensity of an area where the customer premises equipment can be placed in the installation place, and facilitating the determination of the installation position of the customer premises equipment.

In this embodiment, the server determines an object occupation area of the site object in the installation site according to the object distribution information and the attribute information of the site object, and updates the signal intensity content displayed in the three-dimensional signal intensity map based on the object occupation area of each site object to obtain a first site signal map, so that only the signal intensity of a location point not belonging to the site object is displayed in the updated first site signal map, thereby more intuitively displaying the signal intensity of an area where the client front-end device can be placed in the installation site, and facilitating determination of the installation location of the client front-end device.

In one embodiment, the method for determining the installation position of the 5G customer premises equipment further includes: according to the attribute information corresponding to each place object, determining a non-fixed interference object from each place object; determining a target adjustment position from the first venue signal plot based on the non-stationary interfering object; and generating an object distribution adjusting track according to the current distribution position and the target adjusting position of the non-fixed interference object, and marking the object distribution adjusting track in the first place signal diagram.

In this embodiment, the distribution adjustment track of the non-stationary interfering object that can move in the installation site can be identified in the first site signal diagram, so that the terminal can display the distribution adjustment track visually, and the user can adjust the layout of the site object conveniently. The non-fixed interfering object is an interfering object of the signal, that is, a site object of the signal strength of the signal of the base station at each position of the installation site, and meanwhile, the non-fixed interfering object is a non-fixed object, that is, a movable site object, so that a user can perform layout adjustment on the site object. For example, in an apartment house, a load-bearing wall and a wardrobe both block or interfere with signals of a base station, and the load-bearing wall belongs to a fixed interference object and cannot move when the position of the load-bearing wall is fixed; whereas wardrobes belong to non-stationary interfering objects, the position of which can be adjusted by the user.

Specifically, the server determines the non-fixed interference object from the location objects according to the attribute information corresponding to each location object, such as the type to which the location object corresponds, that is, determines whether the location object is the non-fixed interference object according to the type to which the location object corresponds, thereby determining the non-fixed interference object from the location objects of the installation location. The server determines a target adjustment position from the first place signal diagram based on the non-fixed interference object, wherein the target adjustment position is the position of the non-fixed interference object after adjustment. The target adjustment position can be determined according to the attribute information of the place object and the signal strength of each position point in the first place signal diagram, so that the target adjustment position capable of reducing the influence effect of the non-fixed interference object on the signal interference can be obtained. After the target adjustment position corresponding to each non-fixed interference object is determined, the server generates an object distribution adjustment track according to the current distribution position and the target adjustment position of the non-fixed interference object, the object distribution adjustment track can be a directional graph pointing from the current distribution position of the non-fixed interference object to the target adjustment position, and the object distribution adjustment track is marked in the first place signal diagram, for example, the directional graph pointing from the current distribution position of the non-fixed interference object to the target adjustment position can be displayed in the first place signal diagram, so that the target position of each non-fixed interference object which needs to be adjusted is visually displayed.

In this embodiment, the object distribution adjustment trajectory of the non-stationary interfering object is marked in the first place signal diagram, so as to visually display the target position of each non-stationary interfering object to be adjusted, which is convenient for a user to perform layout adjustment of the place object, and is beneficial to improving the installation efficiency of the customer premises equipment.

In one embodiment, determining a target installation location of the customer premises equipment in the installation site from the second site signal map comprises: determining a pre-installation location from the second site signal map; the intensity of the signal corresponding to the pre-installation position is greater than a preset signal intensity threshold value; determining equipment adjusting parameters of the customer premises equipment; performing signal adjustment on the signals corresponding to the pre-installation positions according to the equipment adjustment parameters to obtain adjustment signals corresponding to the pre-installation positions; determining a target installation position from the pre-installation positions based on the adjustment signals; and the adjusting signal corresponding to the target installation position meets the preset equipment installation condition.

In this embodiment, when determining the target installation location of the customer premises equipment according to the second location signal diagram, the server determines the target installation location of the customer premises equipment in the installation location by combining the signal strength of each location point and the adjustment signal obtained by adjusting the equipment adjustment parameter. The device adjustment parameter refers to an internal signal receiving module of the client front-end device, such as an adjustable parameter of an antenna, and the signal intensity of a signal of a base station received by the client front-end device can be correspondingly influenced by adjusting the device adjustment parameter of the client front-end device, such as changing the antenna array parameter.

Specifically, when the server determines the target installation position, a pre-installation position is determined from the second place signal diagram, and the strength of a signal corresponding to the pre-installation position is greater than a preset signal strength threshold value. The signal intensity threshold is set according to actual needs, the customer premises equipment is installed at a position point where the signal intensity exceeds the signal intensity threshold, so that the normal operation of the customer premises equipment can be ensured, and for a position point with low signal intensity, even if the equipment adjusting parameters of the customer premises equipment are adjusted, an effective base station signal is difficult to obtain, and normal signal relay operation cannot be ensured. If the number of pre-installation locations in the installation site where the intensity of the corresponding signal is greater than the signal intensity threshold may be multiple, the target installation location needs to be determined by combining the device adjustment parameters of the customer premises equipment. Further, the server determines device tuning parameters for the client premises equipment, the device tuning parameters may control operation of the client premises equipment, the device tuning parameters are determined based on functions supported by the client premises equipment, and the device tuning parameters may include antenna array parameters, for example, for client premises equipment that supports changing antenna array parameters.

After the device adjustment parameters of the client front-end device are determined, the server performs signal adjustment on the signals corresponding to the pre-installation positions according to the device adjustment parameters to obtain adjustment signals corresponding to the pre-installation positions, namely, the server adjusts the operation of the client front-end device by using the device adjustment parameters, so that the signals of the base station scanned correspondingly to the pre-installation positions are subjected to signal adjustment to obtain the adjustment signals corresponding to the pre-installation positions. And then the server determines a target installation position from the preset installation positions based on the adjustment signals, the adjustment signals corresponding to the target installation position meet preset equipment installation conditions, and the equipment installation conditions can be set according to actual requirements, such as the preset installation position with the highest signal intensity of the adjustment signals can be used as the target installation position. Specifically, the signal strength of each adjustment signal may be compared, and the pre-installation location corresponding to the adjustment signal having the highest signal strength may be determined as the target installation location, so as to obtain the target installation location of the customer premises equipment in the installation site, where the signal strength of the signal of the base station received by the target installation location is the highest, and the network condition is the best, and thereby the normal signal relay work of the customer premises equipment may be ensured.

In this embodiment, the signal strength of each location point and the adjustment signal obtained by adjusting the device adjustment parameter are combined to determine the target installation location of the customer premises equipment in the installation site, and the target installation location with the highest received signal strength of the base station signal and the best network condition can be determined from the second site signal diagram.

In one embodiment, the device adjustment parameters include antenna array parameters, antenna division parameters, and power amplifier gain parameters; the target installation position comprises three-dimensional position information and installation angle information; transmitting the target installation location to the terminal includes: obtaining a target antenna array parameter, a target antenna division parameter and a target power amplifier gain parameter according to a device adjusting parameter corresponding to the adjusting signal of the target installation position; and sending the target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information to the terminal.

In this embodiment, the device adjustment parameters include antenna array parameters, antenna division parameters, and power amplifier gain parameters. The antenna array refers to an antenna array formed by feeding and spatially arranging two or more single antennas working at the same frequency according to a certain requirement, and the antenna array parameters may include the working frequency of the antenna array, the number of antennas, spatial arrangement rules and the like; the antenna division parameter refers to a master-slave division rule of the antenna, for example, an antenna receiving a signal with high signal strength is used as a master antenna, and a signal receiving a signal with low signal strength is used as a slave antenna, so that the operation of the antenna is adjusted; the power amplifier gain parameter can be a gain parameter of the antenna power amplifier unit, so that the signal intensity of a signal received by the antenna can be adjusted. The target installation position includes three-dimensional position information that is a three-dimensional position at which the customer premises equipment needs to be installed in the installation site, and installation angle information that is a corresponding installation angle of the customer premises equipment in the three-dimensional position, such as a direction angle toward the base station.

Specifically, when the server sends the target installation position to the terminal, the server obtains the device adjustment parameter corresponding to the adjustment signal of the target installation position, that is, obtains the target device adjustment parameter corresponding to the target installation position, where the target device adjustment parameter includes a target antenna array parameter, a target antenna division parameter, and a target power amplifier gain parameter. And after the signal of the target installation position is regulated by the equipment regulating parameter, obtaining a regulating signal with the strongest signal intensity, and determining the equipment regulating parameter corresponding to the regulating signal, which specifically comprises an antenna array parameter, an antenna division parameter and a power amplifier gain parameter, as the target equipment regulating parameter corresponding to the target installation position.

The server sends the obtained target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information to the terminal, and a user of the terminal installs the client front-end equipment based on the target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information, so that the client front-end equipment is effectively installed, the installation process of the client front-end equipment is simplified, and the installation efficiency of the client front-end equipment is improved.

In one embodiment, the method for determining the installation position of the 5G customer premises equipment further includes: acquiring a third signal scanning result of the client front-end equipment at the target installation position; obtaining a third site signal map according to the second site distribution map and the third signal scanning result; when the third place signal diagram is not matched with the second place signal diagram, marking an area which is not matched with the second place signal diagram in the third place signal diagram to obtain a marked third place signal diagram; and sending the marked third place signal diagram to the terminal.

In this embodiment, the server monitors a third signal scanning result of the client front-end device at the target installation position, and sends a prompt message to the terminal when a third site signal diagram constructed based on the third signal scanning result and the second site distribution diagram is not matched with the second site signal diagram.

Specifically, the server sends the target installation position to the terminal, and a user of the terminal completes installation of the client front-end device according to the target installation position, that is, after the client front-end device is installed at the target installation position, the server obtains a third signal scanning result of the client front-end device at the target installation position, where the third signal scanning result is a scanning result obtained by signal scanning after the client front-end device is installed at the target installation position. The server obtains a third location signal map according to the obtained third signal scanning result and the second location distribution map, the fusion of the third location signal map can correspond to the fusion processing of the first location signal map, the third location signal map fuses the third signal scanning result and the second location distribution map, and reflects the signal conditions, such as signal intensity, of each position in the second location distribution map, and the shielding interference conditions of each location object in the installation location under the layout, such as the signal intensity variation conditions of different angles or different positions around the scene object.

And the server matches the third place signal diagram with the second place signal diagram, if the third place signal diagram is not matched with the second place signal diagram, the signal intensity of each position in the third place signal diagram is changed, possibly because a place object of an installation place is changed or the base station is changed, an area which is not matched with the second place signal diagram is marked in the third place signal diagram, and the marked third place signal diagram is obtained. The server marks the unmatched regions in the third site signal diagram to visually show the regions where the signals of the base stations received in the installation site are changed through the marked third site signal diagram. The server sends the marked third place signal diagram to the terminal, so that the marked third place signal diagram is displayed on the terminal, and therefore the change situation of the signal of the base station received in the installation place of the user of the terminal is prompted, and the user of the terminal can conveniently perform corresponding processing, such as adjusting a corresponding place object or re-determining the installation position of the customer premises equipment.

In this embodiment, the server monitors a third signal scanning result of the client front-end device at the target installation location, and when a third location signal diagram constructed based on the third signal scanning result and the second location distribution diagram is not matched with the second location signal diagram, indicating that a signal of the base station received in the installation location changes, the server sends the marked third location signal diagram to the terminal for prompting, so that the terminal user performs corresponding processing, and normal signal relay operation of the client front-end device is ensured.

It should be understood that although the various steps in the flow charts of fig. 2-3 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-3 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 4, there is provided a 5G client front end device installation position determination apparatus including: a first distribution pattern obtaining module 402, a first signal pattern issuing module 404, a second distribution pattern receiving module 406, a first signal pattern obtaining module 408, and an installation position determining module 410, wherein:

a first distribution diagram obtaining module 402, configured to obtain a first location distribution diagram of an installation location corresponding to a customer premises equipment sent by a terminal;

a first signal diagram issuing module 404, configured to obtain a first location signal diagram according to the first location distribution map and a first signal scanning result of the client front-end device, and issue the first location signal diagram to the terminal;

a second distribution chart receiving module 406, configured to receive a second location distribution chart returned by the terminal; the second place distribution diagram is obtained by the terminal corresponding to the user through layout adjustment on the first place distribution diagram based on the first place signal diagram;

a first signal map obtaining module 408, configured to obtain a second location signal map according to the second location distribution map and a second signal scanning result of the client front device;

and an installation position determining module 410, configured to determine a target installation position of the customer premises equipment in the installation site according to the second site signal diagram, and send the target installation position to the terminal.

In one embodiment, the first signal diagram issuing module 404 includes a first scanning result module, a three-dimensional signal strength diagram module, a location object information acquiring module, and a first signal diagram acquiring module; wherein: the system comprises a first scanning result module, a second scanning result module and a third scanning result module, wherein the first scanning result module is used for acquiring a first signal scanning result of the customer premises equipment in an installation place; the three-dimensional signal intensity map module is used for constructing a three-dimensional signal intensity map according to the first signal scanning result; the place object information acquisition module is used for determining each place object and corresponding object distribution information in the installation place according to the first place distribution map; and the first signal diagram obtaining module is used for mapping each place object and corresponding object distribution information into the three-dimensional signal intensity diagram to obtain a first place signal diagram.

In one embodiment, the first signal map obtaining module comprises a location determining module, an occupied area determining module and a strength map updating module; wherein: the position determining module is used for determining the position of each place object in the three-dimensional signal intensity map according to the object distribution information; the occupation area determining module is used for determining an object occupation area of the site object in the three-dimensional signal intensity diagram according to the attribute information of the site object and the corresponding position; and the intensity map updating module is used for updating the signal intensity content displayed in the three-dimensional signal intensity map according to the object occupation area corresponding to each place object to obtain a first place signal map.

In one embodiment, the system further comprises an attribute information analysis module, an adjustment position determination module and an adjustment marking module; wherein: the attribute information analysis module is used for determining a non-fixed interference object from each place object according to the attribute information corresponding to each place object; an adjusted position determination module to determine a target adjusted position from the first venue signal plot based on the non-stationary interfering object; and the adjustment marking module is used for generating an object distribution adjustment track according to the current distribution position and the target adjustment position of the non-fixed interference object and marking the object distribution adjustment track in the first place signal diagram.

In one embodiment, the installation location determination module 410 includes a pre-installation location module, an adjustment parameter module, a signal adjustment module, and a target location determination module; wherein: a pre-installation location module for determining a pre-installation location from the second site signal map; the intensity of the signal corresponding to the pre-installation position is greater than a preset signal intensity threshold value; the adjusting parameter module is used for determining the equipment adjusting parameters of the customer premises equipment; the signal adjusting module is used for carrying out signal adjustment on the signals corresponding to the pre-installation positions according to the equipment adjusting parameters to obtain adjusting signals corresponding to the pre-installation positions; the target position determining module is used for determining a target installation position from the pre-installation positions based on the adjusting signals; and the adjusting signal corresponding to the target installation position meets the preset equipment installation condition.

In one embodiment, the device adjustment parameters include antenna array parameters, antenna division parameters, and power amplifier gain parameters; the target installation position comprises three-dimensional position information and installation angle information; the installation position determining module 410 further comprises a target parameter determining module and an installation information issuing module; wherein: the target parameter determining module is used for obtaining a target antenna array parameter, a target antenna division parameter and a target power amplifier gain parameter according to the equipment adjusting parameter corresponding to the adjusting signal of the target installation position; and the installation information issuing module is used for sending the target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information to the terminal.

In one embodiment, the device further comprises a third signal scanning result module, a third signal diagram obtaining module, a third signal diagram marking module and a marked signal diagram issuing module; wherein: the third signal scanning result module is used for acquiring a third signal scanning result of the client front-end equipment at the target installation position; a third signal diagram obtaining module, configured to obtain a third location signal diagram according to the second location distribution diagram and the third signal scanning result; the third signal diagram marking module is used for marking an area which is not matched with the second place signal diagram in the third place signal diagram when the third place signal diagram is not matched with the second place signal diagram to obtain a marked third place signal diagram; and the marked signal diagram issuing module is used for sending the marked third place signal diagram to the terminal.

For specific limitations of the 5G customer premises equipment installation position determination apparatus, reference may be made to the above limitations of the 5G customer premises equipment installation position determination method, which are not described herein again. The modules in the 5G customer premises equipment installation position determination apparatus may be implemented in whole or in part by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 5. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing 5G customer premises equipment installation position determination data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a 5G client front-end device installation location determination method.

Those skilled in the art will appreciate that the architecture shown in fig. 5 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program:

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring a first signal scanning result of customer premises equipment in an installation site; constructing a three-dimensional signal intensity map according to the first signal scanning result; determining each place object and corresponding object distribution information in the installation place according to the first place distribution map; and mapping each place object and corresponding object distribution information to a three-dimensional signal intensity map to obtain a first place signal map.

In one embodiment, the processor, when executing the computer program, further performs the steps of: determining the position of each place object in the three-dimensional signal intensity map according to the object distribution information; determining an object occupation area of the site object in the three-dimensional signal intensity diagram according to the attribute information of the site object and the corresponding position; and updating the signal intensity content displayed in the three-dimensional signal intensity map according to the object occupation area corresponding to each site object to obtain a first site signal map.

In one embodiment, the processor, when executing the computer program, further performs the steps of: according to the attribute information corresponding to each place object, determining a non-fixed interference object from each place object; determining a target adjustment position from the first venue signal plot based on the non-stationary interfering object; and generating an object distribution adjusting track according to the current distribution position and the target adjusting position of the non-fixed interference object, and marking the object distribution adjusting track in the first place signal diagram.

In one embodiment, the processor, when executing the computer program, further performs the steps of: determining a pre-installation location from the second site signal map; the intensity of the signal corresponding to the pre-installation position is greater than a preset signal intensity threshold value; determining equipment adjusting parameters of the customer premises equipment; performing signal adjustment on the signals corresponding to the pre-installation positions according to the equipment adjustment parameters to obtain adjustment signals corresponding to the pre-installation positions; determining a target installation position from the pre-installation positions based on the adjustment signals; and the adjusting signal corresponding to the target installation position meets the preset equipment installation condition.

In one embodiment, the device adjustment parameters include antenna array parameters, antenna division parameters, and power amplifier gain parameters; the target installation position comprises three-dimensional position information and installation angle information; the processor, when executing the computer program, further performs the steps of: obtaining a target antenna array parameter, a target antenna division parameter and a target power amplifier gain parameter according to a device adjusting parameter corresponding to the adjusting signal of the target installation position; and sending the target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information to the terminal.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring a third signal scanning result of the client front-end equipment at the target installation position; obtaining a third site signal map according to the second site distribution map and the third signal scanning result; when the third place signal diagram is not matched with the second place signal diagram, marking an area which is not matched with the second place signal diagram in the third place signal diagram to obtain a marked third place signal diagram; and sending the marked third place signal diagram to the terminal.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring a first signal scanning result of customer premises equipment in an installation site; constructing a three-dimensional signal intensity map according to the first signal scanning result; determining each place object and corresponding object distribution information in the installation place according to the first place distribution map; and mapping each place object and corresponding object distribution information to a three-dimensional signal intensity map to obtain a first place signal map.

In one embodiment, the computer program when executed by the processor further performs the steps of: determining the position of each place object in the three-dimensional signal intensity map according to the object distribution information; determining an object occupation area of the site object in the three-dimensional signal intensity diagram according to the attribute information of the site object and the corresponding position; and updating the signal intensity content displayed in the three-dimensional signal intensity map according to the object occupation area corresponding to each site object to obtain a first site signal map.

In one embodiment, the computer program when executed by the processor further performs the steps of: according to the attribute information corresponding to each place object, determining a non-fixed interference object from each place object; determining a target adjustment position from the first venue signal plot based on the non-stationary interfering object; and generating an object distribution adjusting track according to the current distribution position and the target adjusting position of the non-fixed interference object, and marking the object distribution adjusting track in the first place signal diagram.

In one embodiment, the computer program when executed by the processor further performs the steps of: determining a pre-installation location from the second site signal map; the intensity of the signal corresponding to the pre-installation position is greater than a preset signal intensity threshold value; determining equipment adjusting parameters of the customer premises equipment; performing signal adjustment on the signals corresponding to the pre-installation positions according to the equipment adjustment parameters to obtain adjustment signals corresponding to the pre-installation positions; determining a target installation position from the pre-installation positions based on the adjustment signals; and the adjusting signal corresponding to the target installation position meets the preset equipment installation condition.

In one embodiment, the device adjustment parameters include antenna array parameters, antenna division parameters, and power amplifier gain parameters; the target installation position comprises three-dimensional position information and installation angle information; the computer program when executed by the processor further realizes the steps of: obtaining a target antenna array parameter, a target antenna division parameter and a target power amplifier gain parameter according to a device adjusting parameter corresponding to the adjusting signal of the target installation position; and sending the target antenna array parameters, the target antenna division parameters, the target power amplifier gain parameters, the three-dimensional position information and the installation angle information to the terminal.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring a third signal scanning result of the client front-end equipment at the target installation position; obtaining a third site signal map according to the second site distribution map and the third signal scanning result; when the third place signal diagram is not matched with the second place signal diagram, marking an area which is not matched with the second place signal diagram in the third place signal diagram to obtain a marked third place signal diagram; and sending the marked third place signal diagram to the terminal.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A method for determining an installation position of a 5G Customer Premises Equipment (CPE), the method comprising:

receiving a second place distribution map returned by the terminal; the second place distribution map is obtained by the terminal corresponding user performing layout adjustment on the first place distribution map based on the first place signal map;

and determining a target installation position of the client front-end equipment in the installation site according to the second site signal diagram, and sending the target installation position to the terminal.

2. The method of claim 1, wherein obtaining a first venue signal map from the first venue profile and a first signal scan of the customer premises equipment comprises:

acquiring a first signal scanning result of the customer premises equipment in the installation site;

and mapping each place object and corresponding object distribution information into the three-dimensional signal intensity map to obtain a first place signal map.

3. The method of claim 2, wherein mapping each of the venue objects and corresponding object distribution information into the three-dimensional signal strength map to obtain a first venue signal map comprises:

determining an object occupation area of the place object in the three-dimensional signal intensity graph according to the attribute information and the corresponding position of the place object;

and updating the signal intensity content displayed in the three-dimensional signal intensity map according to the object occupation area corresponding to each place object to obtain a first place signal map.

4. The method of claim 2, further comprising:

according to attribute information corresponding to each place object, determining a non-fixed interference object from each place object;

generating an object distribution adjusting track according to the current distribution position of the non-fixed interference object and the target adjusting position, and marking the object distribution adjusting track in the first place signal diagram.

5. The method of claim 1, wherein said determining a target installation location of said customer premises equipment in said installation site from said second site signal map comprises:

determining a pre-installation location from the second venue signal plot; the strength of the signal corresponding to the pre-installation position is greater than a preset signal strength threshold value;

determining a device adjustment parameter of the customer premises equipment;

determining a target mounting position from the pre-mounting positions based on the adjustment signals; and the adjusting signal corresponding to the target installation position meets the preset equipment installation condition.

6. The method of claim 5, wherein the device tuning parameters include antenna array parameters, antenna partitioning parameters, and power amplifier gain parameters; the target installation position comprises three-dimensional position information and installation angle information; the sending the target installation location to the terminal includes:

obtaining a target antenna array parameter, a target antenna division parameter and a target power amplifier gain parameter according to the equipment adjusting parameter corresponding to the adjusting signal of the target installation position;

7. The method of any one of claims 1 to 6, further comprising:

obtaining a third place signal diagram according to the second place distribution diagram and the third signal scanning result;

and sending the marked third place signal diagram to the terminal.

8. A 5G customer premises device installation position determination apparatus, comprising:

the first signal map issuing module is used for obtaining a first place signal map according to the first place distribution map and a first signal scanning result of the client front equipment and issuing the first place signal map to the terminal;

the second distribution diagram receiving module is used for receiving a second place distribution diagram returned by the terminal; the second place distribution map is obtained by the terminal corresponding user performing layout adjustment on the first place distribution map based on the first place signal map;

a first signal map obtaining module, configured to obtain a second location signal map according to the second location distribution map and a second signal scanning result of the customer premises equipment;

and the installation position determining module is used for determining a target installation position of the client front equipment in the installation place according to the second place signal diagram and sending the target installation position to the terminal.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.