CN111885704A - Method for determining installation position of user front equipment, electronic equipment and storage medium - Google Patents

Abstract

The application provides a method for determining a user front-end device installation position, an electronic device and a storage medium, comprising the following steps: acquiring a first intensity value of a first network signal of a preset frequency band received by a user front-end device, acquiring a second intensity value of the first network signal of the preset frequency band received by a mobile terminal when the mobile terminal is positioned at the position of the user front-end device, and establishing a mapping relation between the first intensity value and the second intensity value; acquiring third strength values of first network signals of preset frequency bands respectively received by a plurality of preset positions of the mobile terminal in a region to be installed, and obtaining a calculated strength value of the user front equipment at each preset position according to the third strength values and a mapping relation; and determining the preset position corresponding to any calculated intensity value which is greater than or equal to the preset threshold value as the installation position of the user front equipment. The method provided by the application can quickly determine the installation position of the user front-end equipment for receiving the higher signal strength.

Description

Method for determining installation position of user front equipment, electronic equipment and storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a method for determining an installation location of a user equipment, an electronic device, and a storage medium.

Background

The ue has a function of transceiving network signals, and is fixed at a certain position, but the network signal strength at the certain position is not necessarily better or optimal. Therefore, how to quickly determine the installation position of the user equipment so that the user equipment receives a signal with higher strength becomes a problem to be solved.

Disclosure of Invention

The embodiment of the application provides a method for quickly determining an installation position where a user front-end device can receive high signal strength, an electronic device and a storage medium.

In a first aspect, a method for determining an installation position of a user equipment provided in an embodiment of the present application is applied to a mobile terminal, and includes:

acquiring a first intensity value of a first network signal of a preset frequency band received by the user front equipment, acquiring a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front equipment, and establishing a mapping relation between the first intensity value and the second intensity value;

acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation;

and determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment.

In a second aspect, a method for determining an installation location of a user equipment, the method being applied to the user equipment, includes:

acquiring a first intensity value of a first network signal of a preset frequency band received by the user front equipment, acquiring a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front equipment, and establishing a mapping relation between the first intensity value and the second intensity value;

acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation;

and determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment.

In a third aspect, a method for determining an installation position of a user equipment (ue) is provided in an embodiment of the present application, where the method is applied to a peripheral terminal, and the peripheral terminal establishes communication connections with the ue and a mobile terminal, and the method includes:

acquiring a first intensity value of a first network signal of a preset frequency band received by the user front equipment, acquiring a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front equipment, and establishing a mapping relation between the first intensity value and the second intensity value;

acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation;

and determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment.

In a fourth aspect, an embodiment of the present application provides an electronic device, including:

the mobile terminal comprises a first acquisition module, a second acquisition module and a mapping module, wherein the first acquisition module is used for acquiring a first intensity value of a first network signal of a preset frequency band received by a user front-end device, acquiring a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front-end device, and establishing a mapping relation between the first intensity value and the second intensity value;

a second obtaining module, configured to obtain third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at multiple preset positions in a to-be-installed area, and obtain a calculated strength value of each preset position according to the third strength values and the mapping relationship; and

a determining module, configured to determine the preset position corresponding to any one of the calculated intensity values greater than or equal to a preset threshold as an installation position of the user premises equipment.

In a fifth aspect, an electronic device provided in an embodiment of the present application includes: a processor and a memory for storing a computer program capable of running on the processor; wherein the processor is adapted to perform the steps of the method when running the computer program.

In a sixth aspect, a storage medium storing a computer program is provided in an embodiment of the present application, where the computer program is implemented to implement the steps of the method when executed by a processor.

According to the method for determining the installation position of the user front-end device, a mapping relation between a first intensity value and a second intensity value is established by obtaining the first intensity value of a first network signal of a preset frequency band received by the user front-end device and obtaining the second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front-end device; acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation; determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment; the installation position with better received signal of the user front equipment in the to-be-installed area can be obtained without moving the user front equipment, the operability is strong, the accuracy rate of signal intensity acquisition of the to-be-installed area is high, and the coverage range is comprehensive, so that the installation position with better received signal intensity of the user front equipment in the to-be-installed area can be quickly obtained.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic view of an application scenario of a user front device according to an embodiment of the present application;

fig. 2 is an application scenario diagram of a method for determining an installation location of a user-premises equipment according to an embodiment of the present application;

fig. 3 is a flowchart of a method for determining an installation location of a user equipment according to an embodiment of the present application;

FIG. 4 is a flowchart of a portion of operation 110 in a method provided in an embodiment of the present application;

FIG. 5 is a flowchart of another portion of operation 110 in a method provided in an embodiment of the present application;

FIG. 6 is a flow chart of a portion of operation 120 of a method provided in an embodiment of the present application;

FIG. 7 is a flowchart of another portion of operation 120 in a method provided in an embodiment of the present application;

FIG. 8 is a flowchart of a further portion of operation 120 of a method according to an embodiment of the present application;

fig. 9 is a flowchart of a method for determining an installation location of a user equipment according to a second embodiment of the present application;

fig. 10 is a scene diagram of a part of operations in the method provided in the second embodiment of the present application;

fig. 11 is a diagram of a scenario of operation 240 in a method provided in the second embodiment of the present application;

fig. 12 is a scene diagram of operation 260 in the method provided in the second embodiment of the present application;

fig. 13 is a diagram illustrating an operation 270 of a method according to a second embodiment of the present application;

fig. 14 is a flowchart of a method for determining an installation location of a user equipment according to a third embodiment of the present application;

fig. 15 is a flowchart of a method for determining an installation location of a user equipment according to a fourth embodiment of the present application;

fig. 16 is a schematic structural diagram of an electronic device according to an embodiment of the present application;

fig. 17 is a schematic structural diagram of an electronic device according to another embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without inventive step, are within the scope of the present disclosure. Any of the embodiments described herein can be adaptively combined with other embodiments.

Referring to fig. 1, a Customer premise equipment 1 (CPE) according to an embodiment of the present disclosure can communicate with a base station 3 to receive a 4G (fourth generation mobile communication technology) or 5G (fifth generation mobile communication technology) mobile communication signal transmitted by the base station 3, and the Customer premise equipment 1 can convert the received 4G or 5G mobile communication signal into a Wireless-Fidelity (Wi-Fi) signal, where the Wi-Fi signal can support multiple mobile terminals 5 to access the internet at the same time. Of course, the Wi-Fi signal can support other terminal devices, and the mobile terminal 5 is taken as an example in this embodiment for illustration.

The technical scheme provided by the embodiment of the application relates to a deployment scheme of a user front device 1. Generally speaking, after the location of the ue 1 is determined, the location is hardly moved during subsequent use, the first deployment location of the ue 1 determines the performance limit and the utilization rate of the ue 1, and the appropriate location may lead to the comprehensive improvement of the traffic performance, the power consumption, and the spectrum utilization rate of the ue 1. The currently used deployment scheme needs to fix the position of the user front-end device 1, measure the strength of the network signal acquired by the user front-end device 1, and continuously move the position of the user front-end device 1 until finding the optimal position point where the network signal is strong. However, the user front device 1 is relatively bulky and is relatively troublesome to move in a room, so that the operability of the scheme is poor; due to the time cost and the incapability of traversing all positions and angles, the scheme is almost impossible to find the optimal position in practical use; the user front-end device 1 needs to be powered by the power adapter, and the adapter needs to be plugged and unplugged again for different location points, so that the scheme needs to be powered on for many times, and the time for point finding is long.

The embodiment of the application provides a method capable of quickly determining the installation position of a user front-end device. An example scenario using this method is as follows: referring to fig. 2, first, when the user premises equipment 1 is installed at an initial position (position 1 in fig. 2), the user premises equipment 1 is connected to the mobile terminal 5 (the mobile terminal 5 is taken as a mobile phone for example in this scenario, and will not be described later) through bluetooth or Wi-Fi; the mobile phone can display the strength of the mobile communication signal received by the user front-end device 1 at the initial position, for example, the signal strength score at the initial position is 60 points; placing the mobile phone at the same position as the user front-end device 1, and calibrating the intensity of the mobile communication signal received by the mobile phone and having the same frequency band as the user front-end device with the intensity of the mobile communication signal received by the user front-end device 1, i.e. establishing a mapping relationship, for example, the signal intensity of the mobile phone is 2dB (dB is a signal intensity unit, which is not described in detail later), the signal intensity of the user front-end device 1 is 10dB, and the difference between the signal intensities of the mobile phone and the user front-end device 1 at the same position and having the same frequency band is 8 dB; moving the mobile phone at each location point in each room in the room, converting the intensity of the mobile communication signal received by the mobile phone into the intensity of the mobile communication signal received by the user premises equipment 1 through a mapping relationship, and displaying the intensity on the mobile phone, for example, the signal intensity when the mobile phone moves to a certain location is 3dB, the signal intensity (i.e. the calculated intensity value) of the user premises equipment 1 converted through the mapping relationship is 11dB, comparing the signal intensity with the signal intensity of the user premises equipment 1 at the initial location, the signal intensity at this time is displayed on the mobile phone display screen in percentage, which may be 65 minutes, so that by moving the mobile phone to each location point in each room in the room, the percentage of the signal intensity received by the user premises equipment 1 at each location point in each room can be obtained, for example, the score detected at location 1 to location 6 in fig. 2 is 60 minutes, 65 minutes, 85 minutes, 89 minutes, 88 minutes and 90 minutes; determining a plurality of positions with the mobile signal strength greater than a preset threshold value as recommended positions, and displaying the recommended positions and the mobile signal strength corresponding to the recommended positions on the mobile phone, for example, determining the positions with the percentage score greater than 80 as the recommended positions, for example, the recommended positions are positions 3 to 6; marking positions with the percentage being greater than 80 minutes on a display screen of the mobile phone, determining the positions as recommended positions for installing the user front equipment 1, and determining the final position for installing the user front equipment 1 in the recommended positions according to the actual installation conditions or WiFi signal quality of each recommended position.

The following describes a method for determining a user equipment front device installation position according to the present application in detail with reference to the accompanying drawings. It should be noted that the method for determining the installation location provided by the present application can be used not only for determining the installation location of the user premises equipment 1, but also for installing other devices capable of receiving the first network signal from the base station 3 or other signal transmitting devices, and converting the first network signal into the second network signal for the mobile terminal 5 to connect. The device includes but is not limited to a router, a Wireless Access Point (AP) device, a repeater, a bridge, and so on. The mobile terminal 5 connected to the second network signal includes, but is not limited to, a mobile phone, a tablet computer, a notebook computer, a smart home appliance, a wearable device, and the like. The intelligent household appliances include, but are not limited to, a sound box capable of receiving network signals, a sweeping robot, and the like. Wearable electronic devices include, but are not limited to, smart watches, smart headsets, smart bracelets, smart glasses, smart helmets, and the like. The first network signal and the second network signal include, but are not limited to, a 1G (first generation mobile communication technology), a 2G (second generation mobile communication technology), a 3G (third generation mobile communication technology), a 4G (fourth generation mobile communication technology), a 5G (fifth generation mobile communication technology), a 6G (sixth generation mobile communication technology), or more than six generation mobile signals, a Wireless-Fidelity (Wi-Fi) signal, and the like. The first network signal and the second network signal may be different types or different frequency bands.

Referring to fig. 3, a method for determining an installation location of a ue front-end device according to an embodiment of the present application is applied to a mobile terminal 5. The method includes the following operations.

Operation 110, referring to fig. 4 and fig. 5, obtains a first strength value of the first network signal in the preset frequency band received by the ue 1, obtains a second strength value of the first network signal in the preset frequency band received when the ue 5 is located at the location of the ue 1, and establishes a mapping relationship between the first strength value and the second strength value.

Specifically, the user premises equipment 1 is located at an initial position, and the mobile terminal 5 establishes a communication connection with the user premises equipment 1, so that the mobile terminal 5 can receive data sent by the user premises equipment 1. The signal strength values of the first network signals of the same frequency band received by the user front-end device 1 and the mobile terminal 5 at the same position and the same time are respectively obtained. Wherein, the signal strength value received by the ue 1 is defined as a first strength value, and the signal strength value received by the mobile signal is defined as a second strength value. And establishing a mapping relation between the first strength value and the second strength value. Because the positions of the user front-end device 1 and the mobile terminal 5 are the same, the frequency bands of received signals are the same, and the time periods of received signals are the same, the external influence factors of the difference of the received signal strengths of the mobile terminal 5 and the user front-end device 1 are unified, and only the antenna module of the mobile terminal 5 is different from the antenna module of the user front-end device 1 in structure. Thus, the difference between the first strength value and the second strength value reflects the performance difference between the antenna module of the mobile terminal 5 and the antenna module of the ue 1 for receiving the first network signal, and the performance difference is related to the characteristics of the antenna module itself and does not change with the change of the location of the mobile terminal 5.

Thus, the difference in the capability of receiving the first network signal between the antenna module of the mobile terminal 5 and the antenna module of the ue 1 can be obtained in the above manner, and the influence factor of the difference in the capability is the structural difference between the antenna module of the mobile terminal 5 and the antenna module of the ue 1, and does not change with the change in the position of the mobile terminal 5. The method lays a foundation for 'simulating' the detection of the signal intensity of different positions by the user front equipment 1 by detecting the signal intensity of different positions through the mobile terminal 5.

It is to be understood that the number of times of the calibration between the first intensity value and the second intensity value is not specifically limited in the present application. Specifically, the calibration may be performed only once to obtain the mapping relationship between the first intensity value and the second intensity value, and multiple times of calibration may also be performed, and in the process of multiple times of calibration, any one or more of the positions of the mobile terminal 5 and the ue 1, the frequency bands of the signals received by the mobile terminal 5 and the ue 1, and the time periods during which the mobile terminal 5 and the ue 1 receive the signals may be changed, and the average value is obtained after multiple times of calibration, so as to improve the accuracy of the mapping relationship established between the first intensity value and the second intensity value.

In operation 120, please refer to fig. 6 to 8, third strength values of the first network signals of the preset frequency band, respectively received by the mobile terminal 5 at a plurality of preset positions in the to-be-installed area, are obtained, and a calculated strength value of the user premises equipment at each preset position is obtained according to the third strength values and the mapping relationship.

Specifically, the position of the user front device 1 is not changed, so that the mobile terminal 5 moves at different positions of the area to be installed. The mobile terminal 5 can be moved at each position of the area to be installed, so that the coverage and accuracy of the mobile terminal 5 in acquiring the signal intensity value in the area to be installed are increased. And acquiring the strength value of the first network signal of the preset frequency band when the mobile terminal 5 moves in the area to be installed at a certain frequency, wherein the strength value is defined as a third strength value in the application. The acquisition frequency of the third intensity value can be increased to increase the accuracy of the mobile terminal 5 in acquiring the signal intensity value in the area to be installed.

Referring to fig. 6, third strength values of the first network signals of the preset frequency band, respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed, are obtained. The number of coordinates of the preset position is not specifically limited in the present application. The preset positions can be uniformly distributed in the area to be installed, and the number of the preset positions can be as many as possible under the conditions of saving acquisition power consumption and saving time, so that the accuracy of the mobile terminal 5 in acquiring the signal intensity value in the area to be installed is improved.

Referring to fig. 7 and 8, the third intensity value is substituted into the mapping relationship to replace the second intensity value, and the calculated intensity value is substituted into the mapping relationship to replace the first intensity value, so as to obtain a one-to-one correspondence relationship between the third intensity value and the calculated intensity value. And the third intensity value corresponds to the preset position one by one, so that the one-to-one corresponding relation between the preset position and the calculated intensity value can be obtained. It should be noted that the first strength value, the second strength value and the third strength value are all strength values of the actually acquired first network signal, and the calculated strength value is a signal strength value of the first network signal received by the ue 1 calculated by the third strength value.

The mobile terminal 5 is used for continuously acquiring the strength values of the received signals at different preset positions in the area to be installed, and the strength values of the received signals at different preset positions of the user front equipment 1 in the area to be installed can be acquired according to the mapping relation, namely the strength values are calculated. In other words, according to the mapping relationship between the mobile terminal 5 and the intensity value of the first network signal of the preset frequency band received by the ue 1, the intensity value of the first network signal of the preset frequency band collected by the ue 1 in the area to be installed can be simulated by enabling the mobile terminal 5 to collect the intensity value of the first network signal of the preset frequency band in the area to be installed, where the intensity value is a calculated intensity value. In the process, the signal intensity of the user front-end device 1 on the region to be installed can be detected without moving the user front-end device 1, so that the problems of poor operability, long power consumption time on multiple times, limited length of a power adapter and the like caused by the fact that the position of the user front-end device 1 needs to be moved for multiple times to obtain the signal intensity values of different positions of the region to be installed in the prior art are effectively solved.

In operation 130, the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold is determined as the installation position of the user front device 1.

Specifically, through operation 120, a plurality of preset positions in the region to be installed and a calculated intensity value at each preset position may be obtained. And comparing the calculated intensity value at each preset position with a preset threshold value, and determining the preset position corresponding to the calculated intensity value greater than the preset threshold value as the recommended position for installing the user front equipment 1. Wherein the preset threshold is a higher signal strength value. And when the calculated intensity value corresponding to the preset position in the region to be installed reaches a preset threshold value, determining the preset position as a recommended position. In this manner, one or more recommended locations may be determined. When the recommended position is one, the recommended position may be determined as the installation position of the user front apparatus 1. When there are a plurality of recommended positions, one recommended position may be randomly selected from the plurality of recommended positions as the installation position of the user front device 1, the installation position of the user front device 1 may be determined in the plurality of recommended positions according to actual installation conditions (for example, whether there is an installation surface; whether there is an installation socket, etc.) at the plurality of recommended positions, and the installation position of the user front device 1 may be determined according to Wi-Fi coverage quality of the user front device 1 at the plurality of recommended positions.

According to the method for determining the installation position of the user pre-equipment, provided by the embodiment of the application, a mapping relation between a first intensity value and a second intensity value is established by obtaining the first intensity value of a first network signal of a preset frequency band received by the user pre-equipment 1 and obtaining the second intensity value of the first network signal of the preset frequency band received when the mobile terminal 5 is located at the position of the user pre-equipment 1; acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed, and obtaining a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation; determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment 1; by adopting the method, the installation position of the user front equipment 1 in the area to be installed, which receives the signal better, can be obtained without moving the user front equipment 1, the operability is strong, the accuracy of signal intensity acquisition of the area to be installed is high, the coverage range is comprehensive, so that the better installation position of the user front equipment 1 can be quickly obtained in the area to be installed, the user front equipment 1 is arranged at the installation position, and a stronger network signal can be obtained, so that the signal receiving rate of the user front equipment 1 on the mobile communication signal is improved, and the intensity of the Wi-Fi signal converted by the user front equipment 1 is improved, thus, the intensity of the Wi-Fi signal provided by the user front equipment 1 for the mobile terminal 5 is improved.

Referring to fig. 9, a second embodiment of the present application provides a method for determining an installation location of a ue, where the method is applied to a mobile terminal 5. In the present application, the mobile terminal 5 is taken as a mobile phone for illustration, and details are not described later. Those skilled in the art can apply the technical solution of the present embodiment to a mobile terminal 5 such as a computer, a wearable device, a mobile home appliance, and the like, and details are not repeated herein. The method includes the following operations.

In operation 210, please refer to fig. 4, a communication connection with the ue 1 is established, and a first strength value of a first network signal of a preset frequency band received by the ue 1 is obtained through the communication connection.

Specifically, the user premises equipment 1 to be deployed is placed at an initial position, and the user premises equipment 1 is started at the initial position, and the user premises equipment 1 may receive the first network signal transmitted by the base station 3. The subscriber premises equipment 1 converts the received first network signal into a second network signal and transmits the second network signal. For example, the first network signal is a 4G or 5G mobile signal. The second network signal is a Wi-Fi signal.

A communication connection between the mobile terminal 5 and the user premises equipment 1 is established. Specifically, the mobile terminal 5 and the user front-end device 1 are connected through bluetooth or Wi-Fi, so as to implement data transmission between the mobile terminal 5 and the user front-end device 1. In this embodiment, the mobile terminal 5 is connected to the user premises equipment 1 through Wi-Fi, and the mobile terminal 5 uses a Wi-Fi signal transmitted by the user premises equipment 1. At the same time, the mobile terminal 5 is also able to receive the first network signal from the base station 3.

Since the antenna modules of the mobile terminal 5 and the ue 1 have different structures and characteristics, although both the mobile terminal 5 and the ue 1 receive the first network signal from the base station 3, the frequency band of the first network signal received by the mobile terminal 5 is different from the frequency band of the first network signal received by the ue 1. For example, the frequency band in which the ue 1 receives the first network signal is the millimeter wave frequency band and the sub-6GHz frequency band, and the frequency band in which the ue 5 receives the first network signal is 800 to 1800 MHz.

In the subsequent process, the frequency bands of the first network signal received by the mobile terminal 5 and the user premises equipment 1 need to be the same, so that the frequency band of the first network signal received by the mobile terminal 5 is obtained, and the preset frequency band is determined in the frequency band of the first network signal received by the mobile terminal 5. Optionally, the frequency band in which the mobile terminal 5 receives the first network signal may be defined as a preset frequency band. For example, the 800- & ltwbr & gtMHz band is defined as the default band. Optionally, in the present application, a part of the frequency bands in the frequency band in which the mobile terminal 5 receives the first network signal may be selected as the preset frequency band. For example, the 800- & ltSUB & gt 1000MHz band is defined as the default band. The ue 1 searches for a signal strength value within the range of 800-1000MHz in the first network signal received within the preset time period, and records the signal strength value as a first strength value.

In operation 220, please refer to fig. 4, a second strength value of the first network signal of the preset frequency band received by the mobile terminal 5 when the mobile terminal is located at the location of the ue front end device 1 is obtained.

Specifically, referring to step 210, the specific implementation of determining the preset frequency band may be to locate the mobile terminal 5 and the ue 1 at the same position, that is, both the mobile terminal 5 and the ue 1 are located at the initial position. The strength value of the first network signal in the preset frequency band (for example, the range of 800-1000MHz frequency band) received by the mobile terminal 5 in the preset time period at the initial position is obtained and recorded as the second strength value. In this way, it is ensured that the frequency bands of the signals received by the mobile terminal 5 and the user premises equipment 1 are consistent, the positions of the mobile terminal 5 and the user premises equipment 1 are the same, and the time lengths of the signals received by the mobile terminal 5 and the user premises equipment 1 are the same.

When the locations of the ue 1 and the ue 5 are the same, the frequency bands of the received signals are the same, and the time periods of the received signals are the same, the difference between the received signal strengths of the ue 5 and the ue 1 is caused by the difference between the antenna module of the ue 5 and the antenna module of the ue 1. Thus, the difference between the first strength value and the second strength value reflects the performance difference between the antenna module of the mobile terminal 5 and the antenna module of the ue 1 for receiving the first network signal, and the performance difference is related to the characteristics of the antenna module itself and does not change with the change of the location of the mobile terminal 5.

In operation 230, please refer to fig. 5, a mapping relationship between the first strength value and the second strength value is established.

Operation 230 includes: determining a difference between a first intensity value of the first network signal in the preset frequency band received by the ue 1 and a second intensity value of the first network signal in the preset frequency band received when the ue 5 is located at the location of the ue 1 as a target intensity difference.

Specifically, after a first intensity value of a first network signal of a preset frequency band received by the user front-end device 1 and a second intensity value of the first network signal of the preset frequency band received by the mobile terminal 5 (located at the same position as the user front-end device 1) are obtained, the first intensity value of the first network signal of the preset frequency band received by the user front-end device 1 and the second intensity value of the first network signal of the preset frequency band received when the mobile terminal 5 is located at the position of the user front-end device 1 are calibrated. The specific calibration process includes calculating a difference between a first intensity value of a first network signal of a preset frequency band received by the user front device 1 and a second intensity value of the first network signal of the preset frequency band received when the mobile terminal 5 is located at the position of the user front device 1, so as to obtain a target intensity difference. It can be understood that the target strength difference reflects the difference between the first network signal acquiring capability of the antenna module in the mobile terminal 5 and the first network signal acquiring capability of the antenna module in the user premises equipment 1.

The mapping relation comprises that the sum of the second intensity value and the target intensity difference value is the first intensity value. For example, the first strength value of the first network signal in the preset frequency band received by the ue 1 is 10dB, the second strength value of the first network signal in the preset frequency band received by the ue 5 at the location of the ue 1 is 2dB, and the target strength difference is 8 dB. And defining the first intensity value as A and the second intensity value as B, wherein the mapping relation is that A-B is 8 dB.

It can be understood that, in the present application, the number of times of calibration between the first intensity value of the first network signal in the preset frequency band received by the ue 1 and the second intensity value of the first network signal in the preset frequency band received when the mobile terminal 5 is located at the location of the ue 1 is not specifically limited. Specifically, the target intensity difference may be obtained by performing calibration only once, or multiple times of calibration may be performed, and in the process of multiple times of calibration, any one or more of the positions of the mobile terminal 5 and the ue 1, the frequency bands of the signals received by the mobile terminal 5 and the ue 1, and the time periods of the signals received by the mobile terminal 5 and the ue 1 may be changed, and an average value is obtained after multiple times of calibration, so as to improve the accuracy of the target intensity difference.

In one embodiment, referring to fig. 10, the mobile terminal 5 includes a display screen 6. An application program for detecting the strength value of the first network signal received by the user premises equipment 1 is installed on the mobile terminal 5.

After operation 210, further comprising: receiving a trigger signal, and displaying an initial position of the ue 1 and the first strength value of the first network signal of the preset frequency band received by the ue 1 at the initial position on the display screen 6 according to the trigger signal. The trigger signal may be a touch operation performed by the user on the display interface of the display screen 6, so as to trigger the display screen 6 of the mobile terminal 5 to display the strength value of the first network signal received by the user front-end device 1 according to the application degree. For example, referring to fig. 10, the strength value of the first network signal of the predetermined frequency band received by the ue 1 at the initial position is converted to 60 minutes. The mobile terminal 5 may display an initial location where the ue 1 is currently located and a percentage of the intensity value of the first network signal of the preset frequency band received at the initial location.

In operation 240, third strength values of the first network signals of the preset frequency band, respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed, are obtained.

Operation 240 comprises: displaying a region to be installed and a plurality of preset positions arranged in the region to be installed on the display screen 6, wherein the preset positions comprise the initial positions; and acquiring third strength values of the first network signals of the preset frequency band received when the mobile terminal 5 moves to the plurality of preset positions respectively.

Optionally, referring to fig. 11, the mobile terminal 5 receives a position optimizing instruction of the user, and displays the area to be installed and a plurality of preset positions set on the area to be installed on the display screen 6 in response to the optimizing instruction. Wherein, the area to be installed can be indoor or outdoor. The embodiment of the present application is described with a region to be installed as an indoor region. Alternatively, a plurality of preset positions may be evenly arranged in the region to be mounted. Optionally, the number of the plurality of preset positions may be relatively large, so as to improve the comprehensiveness of the detection range of the signal reception intensity in the region to be installed. For example, the to-be-installed area includes a first room, a second room, and a third room. A plurality of preset locations, e.g., E1 to E6, are provided in each room and displayed on the display screen 6 of the mobile terminal 5.

Optionally, the plurality of preset positions are connected to form a movement track, and the movement track may be displayed on the display screen 6 to guide the user to bring the mobile terminal 5 or the mobile terminal 5 to move along the movement track. The moving track can cover the area to be installed as completely as possible. In the moving process, the mobile terminal 5 collects the strength value of the first network signal of each preset position receiving the preset frequency band, and defines the strength value as a third strength value. Each third intensity value corresponds to a preset position.

And operation 250, obtaining a calculated strength value of the user front equipment at each preset position according to the third strength value and the mapping relation.

Specifically, according to the mapping relationship, a difference between the intensity value of the mobile terminal 5 receiving the first network signal in the preset frequency band and the intensity value of the user premises equipment 1 receiving the first network signal in the preset frequency band is a target intensity difference. For example, the target intensity difference between the first intensity value and the second intensity value is 8 dB. The third strength value is also the strength value of the first network signal of the preset frequency band received by the mobile terminal 5, that is, the third strength value is substituted into the mapping relationship and replaces the second strength value, and the strength difference between the obtained third strength value and the calculated strength value is 8 dB. In other words, the mobile terminal 5 is used to simulate the signal strength value (i.e. the calculated strength value) of the first network signal of the preset frequency band received by the ue 1 as the sum of the third strength value and the target strength difference. And determining the calculated intensity values respectively corresponding to the plurality of preset positions according to the sum of the third intensity value and the target intensity difference value because the third intensity value corresponds to the preset positions one by one.

And obtaining the calculated intensity value of the user front equipment 1 at each preset position.

Specifically, assume that the preset positions are 6, which are E1 to E6. Correspondingly, the third intensity values of the mobile terminal 5 at the 6 preset positions are C1-C6, respectively. C1 corresponds to E1, and so on, C6 corresponds to E6. The calculated strength values of the simulated user premises equipment 1 at the 6 preset positions by the mobile terminal 5 are D1-D6, respectively, wherein D1 is C1+8dB, where dB is the unit of signal strength. By analogy, D6 ═ C6+8dB, where dB is the unit of signal strength. In this way, the calculated intensity value corresponding to each of the preset positions E1 to E6 of the user front device 1 can be obtained. Optionally, after the operation 250, the method further includes: referring to fig. 11, the calculated intensity value corresponding to each of the preset positions is displayed on the display screen 6. For example, preset positions E1-E6 in the display area to be installed are displayed on the display screen 6, and corresponding calculated intensity values are displayed at each preset position. It should be noted that the percentile of the calculated intensity values is displayed on the display screen 6.

In other implementations, the user may carry the mobile terminal 5 to randomly move in the area to be installed, and the mobile terminal 5 may collect and receive the third strength value of the first network signal of the preset frequency band in a certain frequency band, and obtain the calculated strength value of the user terminal device 1 in combination with the mapping relationship.

In operation 260, the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold is determined as a recommended position.

Specifically, referring to fig. 12, the calculated intensity value corresponding to each preset position is compared with a preset threshold, the preset position corresponding to the calculated intensity value greater than or equal to the preset threshold is selected as the recommended position, the recommended positions are displayed on the display screen 6, and the percentage of the calculated intensity value corresponding to the recommended position is marked at each recommended position. For example, a position where the percentage of the calculated intensity value is greater than or equal to 80 points is regarded as a recommended position and marked in a color distinction or the like.

It can be understood that, in this embodiment, all the display values displayed on the display screen 6 are percentages of the calculated intensity value of the first network signal of the preset frequency band received by the user front-end device 1.

In operation 270, optionally, the recommended position meeting the preset installation condition is determined as the installation position of the user front device 1.

Specifically, the recommended position satisfying the condition parameters of the installation condition is determined as the installation position of the user front apparatus 1 among the plurality of recommended positions. Wherein the condition parameters include: the device comprises a mounting surface (such as a wall surface, a desktop and the like) for mounting the user front equipment 1 in a preset range (such as 0-50 cm), at least one socket in a preset length range (such as 0-1.5 m) and the like.

Alternatively, when the recommended position has a mounting surface for mounting the user-oriented device 1 within a preset range and at least one socket within a preset length range, the position of the mounting surface and the position of the socket may be marked near the recommended position of the display screen 6 of the mobile terminal 5.

Optionally, the recommended position, at which the strength value of the second network signal transmitted by the user front equipment 1 and received by the mobile terminal 5 meets a preset strength value, is determined as the installation position of the user front equipment 1, and the second network signal is a Wi-Fi signal.

Since the mobile terminal 5 is always connected with the user front-end device 1 through Wi-Fi, when the area to be installed of the mobile terminal 5 moves, the strength value of the second network signal received by each position of the area to be installed can be detected.

Optionally, referring to fig. 13, the strength values of the second network signal received by the user front device 1 at the initial position and at each position of the area to be installed may be displayed on the display screen 6. For example, in fig. 13, the Wi-Fi signal strengths corresponding to E3 to E6 are 90 minutes, 93 minutes, 86 minutes, and 89 minutes, respectively. It can be easily presumed in the plurality of recommended positions E3 to E6 at which recommended position the coverage signal of the room using the Wi-Fi signal at high frequency is better for which the user front apparatus 1 is installed. For example, the second room and the third room are respectively provided with recommended positions E3, E4, E5, E6, where E1 is an initial position, the second room is a high-frequency room using Wi-Fi signals, so that it is possible to determine E3 or E4 as the installation position of the user front device 1, and the E4 position is determined as the installation position of the user front device 1 according to the magnitude of the reception intensity value of the first network signal and the magnitude of the intensity value of the Wi-Fi signal.

The method for determining the installation position of the user front-end device, provided by the embodiment of the application, establishes a communication connection with the user front-end device 1, and obtains a first intensity value of a first network signal of a preset frequency band received by the user front-end device 1 through the communication connection; acquiring a second intensity value of the first network signal of the preset frequency band received by the mobile terminal 5 when the mobile terminal is arranged at the position of the user front equipment 1; establishing a mapping relation between the first strength value and the second strength value; acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed; obtaining a calculated intensity value of the user front equipment at each preset position according to the third intensity value and the mapping relation; determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as a recommended position; determining the recommended position meeting the preset installation condition as the installation position of the user front equipment 1; according to the method, the mounting position of the user front equipment 1 with the better received signal in the area to be mounted can be obtained without moving the user front equipment 1, the operability is strong, the accuracy of signal strength acquisition of the area to be mounted is high, the coverage range is comprehensive, and therefore the better mounting position of the user front equipment 1 can be quickly obtained in the area to be mounted.

Referring to fig. 14, a third embodiment of the present application further provides a method for determining an installation location of a ue front end device, where the method is applied to the ue front end device 1. The method includes the following operations.

The method provided by the embodiment is different from the method provided by the embodiment one in that the method provided by the embodiment one is applied to the mobile terminal 5, and the method provided by the embodiment of the present application is applied to the user premises equipment 1.

In operation 310, a first strength value of the first network signal of the preset frequency band received by the ue 1 is obtained.

It is to be understood that the detailed description of the present operation can refer to operation 210 of the first embodiment, which is not described herein again.

Operation 320 is to establish a communication connection with the mobile terminal 5, and obtain, through the communication connection, a second strength value of the first network signal of the preset frequency band, which is received by the mobile terminal 5 when the mobile terminal is located at the location of the ue 1.

A bluetooth connection or a Wi-Fi connection with the mobile terminal 5 is established. It is understood that the detailed description of the present operation can refer to operation 220 of the first embodiment, which is not described herein again.

In operation 330, a mapping relationship between the first strength value and the second strength value is established.

It is to be understood that the detailed description of the present operation can refer to operation 330 of the first embodiment, which is not described herein again.

Operation 340, obtaining third strength values of the first network signals of the preset frequency band, respectively received by the mobile terminal 5 at a plurality of preset positions in the to-be-installed area, and obtaining a calculated strength value of the user premises equipment at each preset position according to the third strength values and the mapping relationship.

It is understood that the detailed description of the present operation can refer to operation 120 of the first embodiment, which is not described herein again.

In operation 350, the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold is determined as the installation position of the user front device 1.

It is to be understood that the detailed description of the present operation can refer to operation 130 of the first embodiment, which is not described herein again.

Referring to fig. 15, a fourth embodiment of the present application provides a method for determining an installation position of a user front device, where the method is applied to the peripheral terminal. The peripheral terminal is a device independent of the user front device 1 and the mobile terminal 5. The peripheral terminal includes, but is not limited to, a mobile phone, a desktop computer, a notebook computer, and the like. The method includes the following operations.

The method provided by the first embodiment is different from the method provided by the first embodiment in that the method provided by the first embodiment is applied to the mobile terminal 5, and the method provided by the first embodiment is applied to the peripheral terminal.

In operation 410, a first communication connection (for example, a bluetooth connection or a Wi-Fi connection) with the ue 1 is established, and a first strength value of a first network signal in a preset frequency band received by the ue 1 is obtained through the first communication connection.

It is to be understood that the detailed description of the present operation can refer to operation 210 of the first embodiment, which is not described herein again.

Operation 420 is to establish a second communication connection (for example, a bluetooth connection or a Wi-Fi connection) with the mobile terminal 5, and obtain, through the second communication connection, a second strength value of the first network signal of the preset frequency band, which is received by the mobile terminal 5 when the mobile terminal 5 is located at the location of the user premises equipment 1.

It is understood that the detailed description of the present operation can refer to operation 220 of the first embodiment, which is not described herein again.

Operation 430, a mapping relationship between the first strength value and the second strength value is established.

It is understood that the detailed description of the present operation can refer to operation 230 of the first embodiment, which is not described herein again.

Operation 440, obtaining third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the to-be-installed area, and obtaining a calculated strength value of the ue in each preset position according to the third strength values and the mapping relationship.

It is understood that the detailed description of the present operation can refer to operation 120 of the first embodiment, which is not described herein again.

In operation 450, the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold is determined as the installation position of the user front device 1.

It is to be understood that the detailed description of the present operation can refer to operation 130 of the first embodiment, which is not described herein again.

It should be noted that technical features between the embodiments of the present application may be combined, and meanwhile, the present application does not strictly limit the execution steps between the respective operations.

Referring to fig. 16, an embodiment of the present application provides an electronic device 2. The electronic device 2 may be a mobile terminal 5, a user front-end device 1 or a peripheral terminal. When the electronic device 2 is the mobile terminal 5, the electronic device 2 establishes a communication connection with the user front-end device 1 for data transmission. When the electronic device 2 is the user front-end device 1, the electronic device 2 establishes a communication connection with the mobile terminal 5. When the electronic device 2 is a peripheral terminal, the electronic device 2 establishes a communication connection with the mobile terminal 5 and the user front-end device 1.

Referring to fig. 16, the electronic device 2 includes a first obtaining module 10, a second obtaining module 20, and a determining module 30.

The first obtaining module 10 is configured to obtain a first strength value of a first network signal in a preset frequency band received by the ue 1, obtain a second strength value of the first network signal in the preset frequency band received when the ue 5 is located at the location of the ue 1, and establish a mapping relationship between the first strength value and the second strength value.

The second obtaining module 20 is configured to obtain third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the to-be-installed area, and obtain a calculated strength value of each preset position according to the third strength values and the mapping relationship.

The determining module 30 is configured to determine the preset position corresponding to any one of the calculated intensity values greater than or equal to a preset threshold as the installation position of the user front device 1.

Optionally, referring to fig. 16, the first obtaining module 10 includes a first establishing unit 101, a first obtaining unit 102, and a second establishing unit 103.

When acquiring a first intensity value of a first network signal of a preset frequency band received by the ue 1 and acquiring a second intensity value of the first network signal of the preset frequency band received when the ue 5 is located at the location of the ue 1, and establishing a mapping relationship between the first intensity value and the second intensity value,

the first establishing unit 101 is configured to establish a communication connection with the ue 1, and obtain a first strength value of a first network signal of a preset frequency band received by the ue 1 through the communication connection;

the first obtaining unit 102 is configured to obtain a second strength value of the first network signal of the preset frequency band, which is received by the mobile terminal 5 when the mobile terminal is located at the location of the ue 1;

the second establishing unit 103 is configured to establish a mapping relationship between the first strength value and the second strength value.

When the mapping relationship between the first intensity value and the second intensity value is established, the second establishing unit 103 is further configured to determine, as a target intensity difference value, a difference between a first intensity value of the first network signal in the preset frequency band received by the ue 1 and a second intensity value of the first network signal in the preset frequency band received when the mobile terminal 5 is located at the location of the ue 1, where the mapping relationship includes that a sum of the second intensity value and the target intensity difference value is the first intensity value.

Optionally, referring to fig. 16, the second obtaining module 20 includes a second obtaining unit 201, a determining unit 202, and a third establishing unit 203.

When third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed, are obtained, and the calculated strength value of the user premises equipment at each preset position is obtained according to the third strength values and the mapping relation,

the second obtaining unit 201 is configured to obtain third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed.

The determining unit 202 is configured to determine, according to a sum of the third intensity value and the target intensity difference, calculated intensity values corresponding to the plurality of preset positions respectively.

Optionally, referring to fig. 16, the electronic device 2 further includes a display module 40.

After the communication connection with the ue 1 is established and the first strength value of the first network signal in the preset frequency band received by the ue 1 is obtained through the communication connection, the display module 40 is configured to receive a trigger signal, and display an initial position of the ue 1 and the first strength value of the first network signal in the preset frequency band received by the ue 1 in the initial position on the display screen 6 according to the trigger signal.

When third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal 5 at a plurality of preset positions in the area to be installed, are obtained, and the calculated strength value of the user premises equipment at each preset position is obtained according to the third strength values and the mapping relation,

the display module 40 is configured to display a region to be mounted and a plurality of preset positions in the region to be mounted on the display screen 6, where the preset positions include the initial position.

The second obtaining unit 201 is configured to obtain third strength values of the first network signals of the preset frequency band received when the mobile terminal 5 moves to the plurality of preset positions, respectively.

The third establishing unit 203 is configured to obtain a calculated intensity value of the ue in each preset location according to the third intensity value and the mapping relationship.

Optionally, after obtaining the calculated intensity value of the user front device at each preset position according to the third intensity value and the mapping relationship, the display module 40 is further configured to display the calculated intensity value corresponding to each preset position on the display screen 6.

Optionally, when the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold is the installation position of the user front equipment 1, the determining module 30 is configured to determine the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold as a plurality of recommended positions; (ii) a And determining the recommended position meeting the preset installation condition as the installation position of the user front equipment 1.

Optionally, when the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold is the installation position of the user front equipment 1, the determining module 30 is configured to determine the preset position corresponding to any one of the calculated intensity values greater than or equal to the preset threshold as a plurality of recommended positions;

and determining the recommended position, which is received by the mobile terminal 5 and has the strength value of the second network signal transmitted by the user front equipment 1 meeting the preset strength value, as the installation position of the user front equipment 1, wherein the second network signal is a Wi-Fi signal.

It should be noted that the electronic device 2 provided in the embodiment of the present application and the method for determining the installation position of the user front device in the foregoing embodiments belong to the same concept, and any method provided in the method embodiment for determining the installation position of the user front device may be run on the electronic device 2, and a specific implementation process thereof is detailed in the method embodiment for determining the installation position of the user front device, and is not described herein again.

In the electronic device 2 according to the embodiment of the present application, each functional module may be integrated into one processing chip, or each module may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium, such as a read-only memory, a magnetic or optical disk, or the like.

The electronic device 2 provided by the embodiment of the application can obtain the optimal installation position of the user front device 1 receiving signals in the to-be-installed area without moving the user front device 1, has strong operability, has high accuracy and comprehensive coverage range for signal strength acquisition of the to-be-installed area, and can quickly acquire the optimal installation position of the user front device 1 in the to-be-installed area.

The present application further provides a storage medium storing a computer program, which when executed by a processor implements the steps of the method for determining the user front-end device installation location provided in any one of the above-mentioned embodiments. The storage medium may be a magnetic disk, an optical disk, a Read Only Memory (ROM), a Random Access Memory (RAM), or the like.

Referring to fig. 17, another embodiment of the present application provides an electronic device 2. The electronic device 2 may be a mobile terminal 5, a user front device 1 or a peripheral terminal. The electronic device 2 includes: a processor 501 and a memory 502 for storing computer programs capable of running on the processor 501. When the processor 501 is configured to run the computer program, the steps of the method for determining the installation location of the user equipment according to any of the above embodiments are executed. The processor 501 is electrically connected to the memory 502.

The processor 501 is a control center of the electronic device 2, connects various parts of the entire electronic device 2 by various communication interfaces 503 and lines, executes various functions of the electronic device 2 and processes data by running or loading a computer program stored in the memory 502, and calling data stored in the memory 502. Wherein the processor 501 runs a file system for managing the memory 502.

The memory 502 may be used to store software programs and modules, and the processor 501 executes various functional applications and data processing by running the computer programs and modules stored in the memory 502. The memory 502 may mainly include a program storage area and a data storage area, wherein the program storage area may store an operating system, a computer program required by at least one function (such as a sound playing function, an image playing function, etc.), and the like; the storage data area may store data created according to the use of the electronic device 2, and the like. Further, the memory 502 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device. Accordingly, the memory may also include a memory controller to provide the processor 501 with access to the memory 502.

In this embodiment, the processor 501 in the electronic device 2 executes the steps of the method for determining the installation location of the user-premises equipment provided in the first to fourth embodiments, loads the instructions corresponding to the processes of one or more computer programs into the memory 502, and the processor 501 runs the computer programs stored in the memory 502, thereby implementing various functions.

It should be noted that the electronic device 2 provided in the embodiment of the present application and the method for determining the installation position of the user-front device in the foregoing embodiments belong to the same concept, and any method provided in the method embodiment for determining the installation position of the user-front device may be run on the electronic device 2, and a specific implementation process thereof is detailed in the embodiment of the feature extraction method, and is not described herein again.

While the foregoing is directed to embodiments of the present application, it will be appreciated by those skilled in the art that various changes and modifications may be made without departing from the principles of the application, and it is intended that such changes and modifications be covered by the scope of the application.

Claims (14)

1. A method for determining the installation position of a user front device is applied to a mobile terminal, and is characterized by comprising the following steps:

acquiring a first intensity value of a first network signal of a preset frequency band received by the user front equipment, acquiring a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front equipment, and establishing a mapping relation between the first intensity value and the second intensity value;

acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation;

and determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment.

2. The method of claim 1, wherein the obtaining a first strength value of a first network signal of a preset frequency band received by the ue and obtaining a second strength value of the first network signal of the preset frequency band received when the ue is located at the location of the ue, and establishing a mapping relationship between the first strength value and the second strength value comprises:

establishing communication connection with the user front equipment, and acquiring a first intensity value of a first network signal of a preset frequency band received by the user front equipment through the communication connection;

acquiring a second intensity value of the first network signal of the preset frequency band received by the mobile terminal when the mobile terminal is arranged at the position of the user front equipment;

and establishing a mapping relation between the first strength value and the second strength value.

3. The method of claim 2, wherein the establishing the mapping between the first strength value and the second strength value comprises:

determining a difference between a first intensity value of a first network signal of a preset frequency band received by the user front-end device and a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front-end device as a target intensity difference, wherein a mapping relation includes that the sum of the second intensity value and the target intensity difference is the first intensity value.

4. The method according to claim 3, wherein the obtaining a third strength value of the first network signal of the preset frequency band, which is received by the mobile terminal at each of a plurality of preset locations in the area to be installed, and obtaining the calculated strength value of the ue at each of the preset locations according to the third strength value and the mapping relationship includes:

acquiring third intensity values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed;

and determining a calculated intensity value of each preset position according to the sum of the third intensity value and the target intensity difference value to obtain the calculated intensity value of the user front equipment at each preset position.

5. The method according to claim 2, wherein the mobile terminal includes a display screen, and after establishing the communication connection with the ue, and obtaining the first strength value of the first network signal of the preset frequency band received by the ue through the communication connection, the method further includes:

receiving a trigger signal, and displaying an initial position of the user front-end device and the first intensity value of the first network signal of the preset frequency band received by the user front-end device at the initial position on the display screen according to the trigger signal.

6. The method according to claim 5, wherein the obtaining a third strength value of the first network signal of the preset frequency band, which is received by the mobile terminal at each of a plurality of preset locations in the area to be installed, and obtaining a calculated strength value of the ue at each of the preset locations according to the third strength value and the mapping relationship, further comprises:

displaying a region to be installed and a plurality of preset positions arranged in the region to be installed on the display screen, wherein the preset positions comprise the initial positions;

acquiring third strength values of the first network signals of the preset frequency band received when the mobile terminal moves to the plurality of preset positions respectively;

and obtaining the calculated intensity value of the user front equipment at each preset position according to the third intensity value and the mapping relation.

7. The method of claim 6, wherein after obtaining the calculated intensity value of the user equipment at each of the preset locations according to the mapping relationship and the third intensity value, further comprises:

and displaying the calculated intensity value corresponding to each preset position on the display screen.

8. The method according to any one of claims 1 to 7, wherein the determining the preset position corresponding to any one of the calculated intensity values greater than or equal to a preset threshold value as the installation position of the user front device comprises:

determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as a recommended position;

and determining the recommended position meeting the preset installation condition as the installation position of the user front equipment.

9. The method according to any one of claims 1 to 7, wherein determining the preset position corresponding to any one of the calculated intensity values greater than or equal to a preset threshold value as the installation position of the user front device comprises:

determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as a recommended position; and determining the recommended position, received by the mobile terminal, at which the strength value of the second network signal transmitted by the user front equipment meets a preset strength value, as the installation position of the user front equipment, wherein the second network signal is a Wi-Fi signal.

10. A method for determining a User Equipment (UE) installation position, the method being applied to the UE and comprising:

acquiring a first intensity value of a first network signal of a preset frequency band received by the user front-end device, acquiring a second intensity value of the first network signal of the preset frequency band received by the mobile terminal when the mobile terminal is arranged at the position of the user front-end device, and establishing a mapping relation between the first intensity value and the second intensity value;

acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation; obtaining a calculated intensity value of the user front equipment at each preset position;

and determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment.

11. A method for determining the installation position of a user front device is applied to a peripheral terminal, and the peripheral terminal establishes communication connection with the user front device and a mobile terminal, and is characterized in that the method comprises the following steps:

acquiring a first intensity value of a first network signal of a preset frequency band received by the user front-end device, acquiring a second intensity value of the first network signal of the preset frequency band received by the mobile terminal when the mobile terminal is arranged at the position of the user front-end device, and establishing a mapping relation between the first intensity value and the second intensity value;

acquiring third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at a plurality of preset positions in a region to be installed, and acquiring a calculated strength value of the user front equipment at each preset position according to the third strength values and the mapping relation;

and determining the preset position corresponding to any one of the calculated intensity values which are greater than or equal to a preset threshold value as the installation position of the user front equipment.

12. An electronic device, comprising:

the mobile terminal comprises a first acquisition module, a second acquisition module and a mapping module, wherein the first acquisition module is used for acquiring a first intensity value of a first network signal of a preset frequency band received by a user front-end device, acquiring a second intensity value of the first network signal of the preset frequency band received when the mobile terminal is located at the position of the user front-end device, and establishing a mapping relation between the first intensity value and the second intensity value;

a second obtaining module, configured to obtain third strength values of the first network signals of the preset frequency band, which are respectively received by the mobile terminal at multiple preset positions in a to-be-installed area, and obtain a calculated strength value of the user premises equipment at each preset position according to the third strength values and the mapping relationship; and

a determining module, configured to determine the preset position corresponding to any one of the calculated intensity values greater than or equal to a preset threshold as an installation position of the user premises equipment.

13. An electronic device, comprising: a processor and a memory for storing a computer program capable of running on the processor; wherein the processor is adapted to perform the steps of the method of any one of claims 1 to 11 when running the computer program.

14. A storage medium storing a computer program, characterized in that the computer program realizes the steps of the method of any one of claims 1 to 11 when executed by a processor.

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