CN114585000B - Network frequency-back method, device, equipment and storage medium - Google Patents

Abstract

The embodiment of the invention provides a network frequency-return method, a device, equipment and a storage medium, which concretely comprises the following steps: the method comprises the following steps: acquiring user data in a preset period of a target base station and service data in the preset period; judging whether a preset service data threshold is met or not according to the service data; if not, determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data; and if the target base station is determined to be the base station to be frequency-backed by the preset communication network, carrying out network frequency-backing on the target base station. According to the method, the user data and the service data in the preset period of the target base station are acquired, the network service condition of the target base station is reflected through the data in the period, and meanwhile, whether the target base station performs network frequency return or not can be determined according to the user data, so that frequency return to a low-specification network can be realized in a simpler mode, and the efficiency is high.

Description

Network frequency-back method, device, equipment and storage medium

Technical Field

The embodiment of the invention relates to the technical field of network communication, in particular to a network frequency-return method, a device, equipment and a storage medium.

Background

With the continuous development of mobile communication technology, mobile communication has gradually moved from the first 1G age into the 5G age. However, for the communication network, even if the 5G age is straddled, the low-specification 2G network still continues to be used, and is not completely removed, and meanwhile, the low frequency band corresponding to the 2G is not completely cleared. Since the low-specification communication network generally occupies the low frequency band with coverage advantage, other networks with high specification, such as the current 5G, cannot use the corresponding low frequency band, which gradually becomes a big problem for restricting the overall improvement of the network capability.

Therefore, aiming at the problem that the low-specification communication network occupies a low frequency band, particularly the low-specification network with less use of users, the analysis is mainly performed on network traffic and frequency point interference at present, so that the method is used for network frequency heavy tillage. The gravity center of the mode is placed on frequency heavy tillage, the complexity is high, and the low-specification network cannot be subjected to frequency withdrawal.

Disclosure of Invention

The invention provides a network frequency-reversing method, a device, equipment and a storage medium, which are used for solving the problems that the complexity of the existing solution for occupying a low frequency band for a low-specification network is high and the low-specification network cannot be subjected to frequency reversing.

An embodiment of the present invention provides a network frequency-back method, including:

acquiring user data in a preset period of a target base station and service data in the preset period;

judging whether a preset service data threshold is met or not according to the service data;

if not, determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data;

and if the target base station is determined to be the base station to be frequency-backed by the preset communication network, carrying out network frequency-backing on the target base station.

Further, as described above, the service data includes: base station traffic data and base station traffic data;

the judging whether the preset business data threshold is met according to the business data comprises the following steps:

judging whether a preset service data threshold is met or not according to the base station service data and the base station service data;

and if the base station traffic data and the base station traffic data meet the preset traffic data threshold, performing network frequency back on the target base station.

Further, as described above, the user data includes a preset communication network end user out-of-mirror rate, a non-preset communication network end user out-of-mirror rate, a preset communication network reuse number of users, and a non-preset communication network reuse number of users;

The determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data comprises:

determining the equivalent user number of the preset communication network terminal according to the preset communication network terminal user out-of-lens rate and the preset communication network reuse user number;

determining the equivalent user number of the non-preset communication network terminal according to the non-preset communication network terminal user outgoing rate and the non-preset communication network reuse number;

and determining whether the target base station is a preset communication network frequency waiting base station according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number.

Further, as described above, the method for determining the equivalent user number of the preset communication network terminal according to the mirror out rate of the preset communication network terminal user and the number of the preset communication network reuse users includes:

determining the user number corresponding to the preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the sporadic user number of the preset communication network terminal;

and determining the difference between the preset communication network reuse number and the preset communication network terminal sporadic user number as the preset communication network terminal equivalent user number.

Further, as described above, the method for determining the equivalent number of users of the non-preset communication network terminal according to the mirror out rate of the non-preset communication network terminal user and the number of users of the non-preset communication network reuse includes:

determining the number of users corresponding to the non-preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the number of sporadic users of the non-preset communication network terminal;

and determining the difference value between the number of the non-preset communication network de-reuse subscribers and the number of sporadic subscribers of the non-preset communication network terminal as the equivalent number of the non-preset communication network terminal.

Further, as described above, the determining whether the target base station is the base station to be frequency-backed by the preset communication network according to the number of the preset communication network terminal equivalent users and the number of the non-preset communication network terminal equivalent users includes:

if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is zero, determining that the target base station is a preset communication network to-be-frequency-backed base station;

if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is larger than zero, acquiring the industrial parameter data of other base stations within the preset distance range of the target base station, and judging whether a network base station with higher specification exists within the preset distance range according to the industrial parameter data of the other base stations; wherein the network specification of the higher specification network base station is higher than the specification of the preset communication network;

If the network base station with higher specification exists in the preset distance range, determining the target base station as the base station to be frequency-backed off of the preset communication network.

Further, in the method as described above, if it is determined that the target base station is not a base station to be frequency-backed off by a preset communication network, the method further includes:

and acquiring the industrial parameter data of the target base station, and recording the industrial parameter data of the target base station in a preset database.

A second aspect of an embodiment of the present invention provides a network frequency-return device, including:

the acquisition module is used for acquiring user data in a preset period of the target base station and service data in the preset period;

the judging module is used for judging whether a preset service data threshold value is met or not according to the service data;

the determining module is used for determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data if the target base station is not satisfied;

and the frequency-return module is used for carrying out network frequency-return on the target base station if the target base station is determined to be the base station to be frequency-returned of the preset communication network.

Further, the device as described above, the service data includes: base station traffic data and base station traffic data;

The judging module is specifically configured to:

judging whether a preset service data threshold is met or not according to the base station service data and the base station service data; and if the base station traffic data and the base station traffic data meet the preset traffic data threshold, performing network frequency back on the target base station.

Further, the device as described above, wherein the user data includes a preset communication network end user out-of-mirror rate, a non-preset communication network end user out-of-mirror rate, a preset communication network reuse number of users, and a non-preset communication network reuse number of users;

the determining module is specifically configured to, when determining whether the target base station is a preset base station to be frequency-backed by the communication network according to the user data:

determining the equivalent user number of the preset communication network terminal according to the preset communication network terminal user out-of-lens rate and the preset communication network reuse user number; determining the equivalent user number of the non-preset communication network terminal according to the non-preset communication network terminal user outgoing rate and the non-preset communication network reuse number; and determining whether the target base station is a preset communication network frequency waiting base station according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number.

Further, in the apparatus as described above, the determining module is specifically configured to, when determining the number of users equivalent to the preset communication network terminal according to the preset communication network terminal user out-of-mirror ratio and the preset communication network reuse number of users:

determining the user number corresponding to the preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the sporadic user number of the preset communication network terminal; and determining the difference between the preset communication network reuse number and the preset communication network terminal sporadic user number as the preset communication network terminal equivalent user number.

Further, in the apparatus as described above, the determining module is specifically configured to, when determining the number of equivalents users of the non-preset communication network terminal according to the number of users of the non-preset communication network terminal and the number of users of the non-preset communication network for use:

determining the number of users corresponding to the non-preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the number of sporadic users of the non-preset communication network terminal; and determining the difference value between the number of the non-preset communication network de-reuse subscribers and the number of sporadic subscribers of the non-preset communication network terminal as the equivalent number of the non-preset communication network terminal.

Further, in the above apparatus, the determining module is specifically configured to, when determining whether the target base station is a preset base station to be frequency-backed by the communication network according to the preset number of users equivalent to the communication network terminal and the non-preset number of users equivalent to the communication network terminal:

if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is zero, determining that the target base station is a preset communication network to-be-frequency-backed base station; if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is larger than zero, acquiring the industrial parameter data of other base stations within the preset distance range of the target base station, and judging whether a network base station with higher specification exists within the preset distance range according to the industrial parameter data of the other base stations; wherein the network specification of the higher specification network base station is higher than the specification of the preset communication network; if the network base station with higher specification exists in the preset distance range, determining the target base station as the base station to be frequency-backed off of the preset communication network.

Further, the apparatus as described above, further comprising:

The recording module is used for acquiring the industrial parameter data of the target base station and recording the industrial parameter data of the target base station in a preset database if the target base station is not the preset communication network to-be-frequency-backed base station.

A third aspect of an embodiment of the present invention provides an electronic device, including: a memory, a processor, and a controller;

the processor, the memory and the controller are interconnected through a circuit;

the memory is used for storing the processor executable instructions;

the controller is used for carrying out network frequency return on the target base station;

wherein the processor is configured to perform the network de-clocking method of any of the first aspects by the processor.

A fourth aspect of the embodiments of the present invention provides a computer-readable storage medium having stored therein computer-executable instructions that, when executed by a processor, are configured to implement the network frequency back method of any one of the first aspects.

The embodiment of the invention provides a network frequency-return method, a device, equipment and a storage medium, wherein the method comprises the following steps: acquiring user data in a preset period of a target base station and service data in the preset period; judging whether a preset service data threshold is met or not according to the service data; if not, determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data; and if the target base station is determined to be the base station to be frequency-backed by the preset communication network, carrying out network frequency-backing on the target base station. The method of the embodiment of the invention reflects the network service condition of the target base station by acquiring the user data and the service data in the preset period of the target base station and then judges whether the preset service data threshold is met or not according to the service data; if so, the target base station is represented to have less or no traffic, and at this time, the target base station can be subjected to frequency-back processing. If the user data is not satisfied, more traffic exists on behalf of the target base station, at this time, whether the target base station is a preset communication network to-be-frequency-backed base station can be determined according to the user data, and if the target base station is determined to be the preset communication network to-be-frequency-backed base station, network frequency-backing is performed on the target base station, so that frequency-backing on a low-specification network can be realized in a simpler mode, and the efficiency is higher.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a scene diagram of a network frequency back method in which an embodiment of the present invention may be implemented;

fig. 2 is a flowchart of a network frequency back method according to a first embodiment of the present invention;

fig. 3 is a flowchart of a network frequency back-off method according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of a network frequency-back device according to a third embodiment of the present invention;

fig. 5 is a schematic structural diagram of a network frequency-back device according to a fourth embodiment of the present invention;

fig. 6 is a schematic structural diagram of an electronic device according to a fifth embodiment of the present invention.

Specific embodiments of the present invention have been shown by way of the above drawings and will be described in more detail below. The drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but rather to illustrate the inventive concepts to those skilled in the art by reference to the specific embodiments.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the invention. Rather, they are merely examples of apparatus and methods consistent with aspects of the invention as detailed in the accompanying claims.

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments. Embodiments of the present invention will be described below with reference to the accompanying drawings.

For a clear understanding of the technical solutions of the present application, the prior art solutions will be described in detail first. With the continuous development of mobile communication technology, the requirements of users on network quality are continuously improved. In the development process from 1G to 5G, the specification of 1G-5G is gradually increased according to specification division, and the network speed is also faster and faster. Typically, low-specification communications occupy low frequency bands, for example, communications have gradually moved into the 5G era, while 2G networks still occupy the corresponding low frequency bands. The low frequency band has a coverage advantage over the high frequency band, and if the low-specification network occupies the low frequency band with the coverage advantage, the new high-specification network cannot use the corresponding low frequency band, which becomes a big problem for restricting the overall improvement of the network capability.

Therefore, aiming at the problem that a low-specification communication network occupies a low frequency band, analysis is mainly performed on network traffic and frequency point interference at present, and how to reconstruct the frequency of the network is analyzed, so that the network is compatible with the high-specification and low-specification networks at the same time, and the network frequency re-cultivation method is used for network frequency re-cultivation. The gravity center of the mode is placed on frequency heavy tillage, the complexity is high, and the low-specification network cannot be subjected to frequency withdrawal.

Therefore, in order to solve the problem that the low-specification communication network occupies the low frequency band in the prior art, the inventor finds out in research that in order to solve the problem that the current low-specification communication network occupies the low frequency band, which low-specification base stations are suitable for performing network frequency withdrawal can be analyzed, so that the low-specification base stations can yield the corresponding low frequency band from the source, the base stations of the high frequency band can use the low frequency band, and the overall network quality is improved. Therefore, the inventor firstly obtains the user data in the preset period of the target base station and the service data in the preset period, then judges whether the preset service data threshold is met according to the service data, if not, the service quantity representing the target base station is more, and at the moment, whether the target base station is the preset communication network to-be-frequency-backed base station can be determined according to the user data. And if the target base station is determined to be the base station to be frequency-backed by the preset communication network, carrying out network frequency-backing on the target base station. Therefore, the frequency rejection of the network with low specification can be realized in a simpler mode, and the efficiency is higher.

The inventor puts forward the technical scheme of the application based on the creative discovery.

The application scenario of the network frequency-back method provided by the embodiment of the invention is introduced below. As shown in fig. 1, 1 is a first electronic device, 2 is a second electronic device, and 3 is a target base station. The first electronic device 1 is a network frequency-back device. The network architecture of the application scene corresponding to the network frequency-back method provided by the embodiment of the invention comprises the following steps: a first electronic device 1 and a second electronic device 2. The second electronic device 2 may store user data and service data corresponding to each base station in a preset period. The preset period can be 30 days of natural days or one month, and can be set according to actual requirements. In practical application, the first electronic device 1 may acquire user data in a preset period and service data in the preset period of the target base station 3 from the second electronic device 2, and then determine whether a preset service data threshold is met according to the service data. If not, determining whether the target base station 3 is a preset communication network to-be-frequency-backed base station according to the user data. If the target base station 3 is determined to be the base station to be frequency-backed by the preset communication network, the network frequency-backing is carried out on the target base station 3.

According to the network frequency-return method provided by the embodiment of the invention, the user data and the service data in the preset period of the target base station are obtained, the network service condition of the target base station is reflected by the data in the period, and then whether the preset service data threshold is met or not is judged according to the service data. If so, the target base station is represented to have less or no traffic, and at this time, the target base station can be subjected to frequency-back processing. If the traffic is not satisfied, more traffic exists on behalf of the target base station, at this time, whether the target base station is a preset communication network to-be-frequency-eliminated base station can be determined according to the user data, and if the target base station is determined to be the preset communication network to-be-frequency-eliminated base station, network frequency elimination is performed on the target base station, so that frequency elimination on a low-specification network can be realized in a simpler manner, and the efficiency is higher.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

Fig. 2 is a flow chart of a network frequency-reversing method according to a first embodiment of the present invention, as shown in fig. 2, in this embodiment, an execution body of the embodiment of the present invention is a network frequency-reversing device, and the network frequency-reversing device may be integrated in an electronic device. The network frequency-back method provided by the embodiment comprises the following steps:

Step S101, user data in a preset period and service data in the preset period of a target base station are obtained.

Firstly, in this embodiment, the obtaining manner may be obtaining through a preset database, where the preset database stores user data in a preset period and service data in a preset period of a target base station or other base stations. Or the user data in the preset period and the service data in the preset period of the target base station can be acquired through a system corresponding to the target base station. This embodiment is not limited thereto.

In this embodiment, the preset period may be 30 days of natural days or one month, and may be set according to actual requirements. The user data refers to user behavior related data and user quantity related data, for example, the mirror out rate of the corresponding network used by the user in each preset period in the range of the base station, the number of users actually used by the network in the range of the base station, and the like, which is not limited in this embodiment.

In this embodiment, the target base station refers to a base station, typically a low-specification base station, such as a 2G base station, that needs to determine whether to perform network frequency-back processing.

In this embodiment, the service data refers to traffic data and traffic data generated when the network is used within the range of the user base station.

Step S102, judging whether a preset business data threshold is met or not according to the business data. If yes, go to step 103, otherwise go to step 104.

In this embodiment, the preset service data threshold may be 0, and when the service data meets the preset service data threshold, it represents that no user is using the preset communication network corresponding to the target base station in the target base station area, and at this time, the target base station meets the requirement of network frequency withdrawal. Meanwhile, the preset service data threshold may be other values, which is not limited in this embodiment.

Step S103, network frequency withdrawal is carried out on the target base station.

In this embodiment, after the network frequency back is performed on the target base station, the target base station can give out the corresponding low frequency band, so that other high-specification base stations can perform network coverage of the low frequency band.

Step S104, determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data. If yes, go to step 105.

In this embodiment, the preset communication network to-be-frequency-backed base station refers to a low-specification base station that needs to perform network frequency-backing, for example, the preset communication network to-be-frequency-backed base station may be a 2G base station, or may be a 3G base station after the popularization of a 5G network.

In this embodiment, the association between the user data and the network usage situation of the user is relatively large, and whether the target base station is the preset communication network to-be-frequency-backed base station or not can be more fit with the actual requirement of the user by using the user data, so that the accuracy of network frequency-backing is improved.

Step S105, network frequency back is carried out on the target base station.

The embodiment of the invention provides a network frequency-return method, which comprises the following steps: and acquiring user data in a preset period of the target base station and service data in the preset period. Judging whether a preset business data threshold is met or not according to the business data. If not, determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data. And if the target base station is determined to be the base station to be frequency-backed by the preset communication network, carrying out network frequency-backing on the target base station. The method of the embodiment of the invention reflects the network service condition of the target base station by acquiring the user data and the service data in the preset period of the target base station and then judges whether the preset service data threshold is met or not according to the service data. If so, the target base station is represented to have less or no traffic, and at this time, the target base station can be subjected to frequency-back processing. If the traffic is not satisfied, more traffic exists on behalf of the target base station, at this time, whether the target base station is a preset communication network to-be-frequency-eliminated base station can be determined according to the user data, and if the target base station is determined to be the preset communication network to-be-frequency-eliminated base station, network frequency elimination is performed on the target base station, so that frequency elimination on a low-specification network can be realized in a simpler manner, and the efficiency is higher.

Fig. 3 is a flow chart of a network frequency-reducing method according to a second embodiment of the present invention, as shown in fig. 3, where each step of the network frequency-reducing method according to the present invention is further refined based on the network frequency-reducing method according to the first embodiment of the present invention. The network frequency-back method provided in this embodiment includes the following steps.

Step S201, user data in a preset period and service data in the preset period of a target base station are obtained.

The implementation manner of step 201 is similar to that of step 101 in the first embodiment of the present invention, and will not be described in detail here.

Step S202, the service data includes: base station traffic data and base station traffic data. And judging whether the preset service data threshold is met or not according to the service data of the base station and the service data of the base station, if yes, executing step 203, and if not, executing step 204.

In this embodiment, the base station traffic data and the base station traffic need to determine whether the same preset traffic data threshold is met, where the preset traffic data threshold may be set to 0, and when the base station traffic data and the base station traffic meet the preset traffic data threshold at the same time, it represents that no user is using the network corresponding to the target base station in the target base station area, and at this time, the target base station meets the requirement of network frequency withdrawal.

Step S203, the network frequency-back is carried out to the target base station.

The implementation manner of step 203 is similar to that of step 103 in the first embodiment of the present invention, and will not be described in detail herein.

In step S204, the user data includes a preset communication network end user out-of-mirror rate, a non-preset communication network end user out-of-mirror rate, a preset communication network reuse number of users, and a non-preset communication network reuse number of users. And determining the equivalent user number of the preset communication network terminal according to the preset communication network terminal user out-of-lens rate and the preset communication network reuse number.

In this embodiment, the preset communication network end user mirror-out rate refers to a preset period, the preset communication network end user mirror-out days at the base station divided by the statistical period days, and the non-preset communication network end user mirror-out rate refers to a preset period, and the non-preset communication network end user mirror-out days at the base station divided by the statistical period days. The preset communication network de-reuse user number refers to the de-reuse user number after the de-duplication of all preset communication network terminal users appearing in the range is performed according to a de-duplication method in a preset period. The number of non-preset communication network de-reuse subscribers refers to the number of de-reuse subscribers after the de-duplication of all non-preset communication network terminal subscribers in the range is performed according to a de-duplication method in a preset period.

In this embodiment, since the preset number of users for removing duplication of the communication network includes the number of sporadic users of the preset communication network terminal that occasionally enter the range of the base station and the preset number of stable users of the communication network within the preset range of the base station, the number of equivalent users of the preset communication network terminal can be determined according to the mirror out rate of the preset communication network terminal user and the preset number of users for removing duplication of the communication network. The preset equivalent user number of the communication network terminal refers to a stable user of the communication network terminal in the range of the base station.

Step S205, determining the equivalent user number of the non-preset communication network terminal according to the mirror out rate of the non-preset communication network terminal and the number of the non-preset communication network reuse users.

In this embodiment, because the number of non-preset communication network deduplication users includes the sporadic number of non-preset communication network terminals that occasionally enter the range of the base station and the stable number of non-preset communication network terminals within the preset range of the base station, the equivalent number of non-preset communication network terminals can be determined according to the out-of-mirror ratio of the non-preset communication network terminals and the number of non-preset communication network deduplication users. Wherein, the number of equivalent users of the non-preset communication network terminal refers to the stable users of the non-preset communication network terminal in the range of the base station.

Step S206, determining whether the target base station is the preset communication network base station to be frequency-backed according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number. If yes, go to step 207, if no, go to step 208.

Step S207, network frequency back is carried out on the target base station.

The implementation of step 207 is similar to that of step 103 in the first embodiment of the present invention, and will not be described in detail here.

Step S208, the industrial parameter data of the target base station is obtained, and the industrial parameter data of the target base station is recorded in a preset database.

In this embodiment, when the target base station is not the base station to be frequency-backed in the preset communication network, the working parameter data of the target base station, such as the longitude and latitude of the target base station, may be obtained, so that the working parameter data of the target base station is recorded in the preset database. And in the next period, acquiring user data in a preset period and service data in the preset period of the corresponding base station according to the longitude and latitude information of each base station recorded in the preset database, so as to gradually perform network frequency rejection on all the base stations with low specification.

Optionally, in this embodiment, determining the number of equivalent users of the preset communication network terminal according to the preset mirror output rate of the communication network terminal user and the preset number of reuse users of the communication network includes:

And determining the user number corresponding to the preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the sporadic user number of the preset communication network terminal.

And determining the difference between the preset communication network reuse user number and the preset communication network terminal sporadic user number as the preset communication network terminal equivalent user number.

In this embodiment, since the preset number of users for communication network de-reuse includes the preset number of users with occasional communication network terminals and the preset number of users with equivalent communication network terminals, the preset number of users with occasional communication network terminals can be judged and determined by the mirror out rate of the preset number of users with occasional communication network terminals, thereby improving the calculation accuracy of how many preset numbers of users with equivalent communication network terminals are within the preset range of the target base station.

Optionally, in this embodiment, determining the equivalent user number of the non-preset communication network terminal according to the mirror output rate of the non-preset communication network terminal user and the number of non-preset communication network reuse users includes:

and determining the user number corresponding to the fact that the mirror out rate of the non-preset communication network terminal user is smaller than the preset mirror out rate threshold as the sporadic user number of the non-preset communication network terminal.

And determining the difference between the number of non-preset communication network de-reuse subscribers and the number of sporadic subscribers of the non-preset communication network terminals as the equivalent number of the non-preset communication network terminals.

In this embodiment, since the number of users for the non-preset communication network reuse includes the number of sporadic users of the non-preset communication network terminals and the number of equivalent users of the non-preset communication network terminals, the number of sporadic users of the non-preset communication network terminals can be judged and determined by the mirror out rate of the users of the non-preset communication network terminals, thereby improving the calculation accuracy of how many of the equivalent users of the non-preset communication network terminals are in the preset range of the target base station.

Optionally, in this embodiment, determining whether the target base station is the preset communication network to-be-frequency-backed base station according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number includes:

if the number of the preset equivalent user numbers of the communication network terminals is smaller than the preset equivalent user number threshold value and the number of the equivalent user numbers of the non-preset communication network terminals is zero, determining the target base station as the preset communication network base station to be frequency-backed.

If the number of the equivalent users of the preset communication network terminal is smaller than the preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is larger than zero, acquiring the working parameter data of other base stations within the preset distance range of the target base station, and judging whether the network base station with higher specification exists within the preset distance range according to the working parameter data of the other base stations. Wherein, the network specification of the higher specification network base station is higher than the specification of the preset communication network.

If the network base station with higher specification exists in the preset distance range, the target base station is determined to be the base station to be frequency-backed off of the preset communication network.

In this embodiment, if the number of equivalent users of the preset communication network terminal is smaller than the preset equivalent user number threshold, and the number of equivalent users of the non-preset communication network terminal is zero, the number of users using the preset communication network is very small, and the number of users using the non-preset communication network is also absent. At this time, the network frequency offset can be directly performed on the target base station.

In this embodiment, if the number of users equivalent to the preset communication network terminal is smaller than the preset equivalent user number threshold, and the number of users equivalent to the non-preset communication network terminal is larger than zero, the number of users using the preset communication network is very small, but the users using the non-preset communication network also exist at the same time. At this time, if the target base station is subjected to network frequency back, a network base station with a higher specification is required to provide network coverage for users of a non-preset communication network. For example, the preset communication network is 2G, and then the 3G and 4G base stations exist in the range of the base station to provide network services for 3G and 4G users.

According to the network frequency-return method provided by the embodiment of the invention, the network service condition of the target base station can be reflected through the base station service volume data and the base station traffic volume data by acquiring the base station service volume data, the base station traffic volume data, the preset communication network terminal user lens-out rate, the non-preset communication network terminal user lens-out rate, the preset communication network reuse number and the non-preset communication network reuse number in a preset period of the target base station, and if the base station service volume data and the base station traffic volume data meet the preset service data threshold values, the target base station is represented to have less or no service volume, and at the moment, the target base station can be subjected to frequency-return processing. If the traffic is not satisfied, more traffic exists on behalf of the target base station, at this time, whether the target base station is a preset communication network to-be-frequency-backed base station can be determined according to the preset communication network terminal user out-of-coverage rate, the non-preset communication network terminal user out-of-coverage rate, the preset communication network reuse number of users and the non-preset communication network reuse number of users, and whether the target base station is the preset communication network to-be-frequency-backed base station can be more accurately determined through the preset communication network terminal user out-of-coverage rate, the non-preset communication network terminal user out-of-coverage rate, the preset communication network reuse number of users and the non-preset communication network reuse number of users. If the target base station is determined to be the preset communication network frequency-to-be-frequency-eliminated base station, the target base station is subjected to network frequency elimination, so that the preset communication network frequency-to-be-eliminated base station can be subjected to frequency elimination in a simpler mode, and frequency elimination of a low-specification network is realized, and the efficiency is high.

Fig. 4 is a schematic structural diagram of a network frequency-reversing device according to a third embodiment of the present invention, as shown in fig. 4, in this embodiment, the network frequency-reversing device 300 includes:

the acquiring module 301 is configured to acquire user data in a preset period and service data in a preset period of a target base station.

And the judging module 302 is configured to judge whether a preset service data threshold is met according to the service data.

And a determining module 303, configured to determine whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data if the target base station is not satisfied.

And the frequency-reversing module 304 is configured to, if it is determined that the target base station is a base station to be reversed in the preset communication network, perform network frequency reversing on the target base station.

The network frequency-return device provided in this embodiment may execute the technical scheme of the method embodiment shown in fig. 2, and its implementation principle and technical effects are similar to those of the method embodiment shown in fig. 2, and are not described in detail herein.

Fig. 5 is a schematic structural diagram of a network frequency-reducing device according to a fourth embodiment of the present invention, and an embodiment of the network frequency-reducing device according to the present invention will be described. The network frequency-reducing device 400 provided in this embodiment is further refined based on the network frequency-reducing device 300 provided in the previous embodiment.

In this embodiment, the service data includes: base station traffic data and base station traffic data.

The judging module 302 is specifically configured to:

and judging whether a preset service data threshold is met or not according to the base station traffic data and the base station traffic data. And if the base station traffic data and the base station traffic data meet the preset traffic data threshold, performing network frequency back on the target base station.

Optionally, in this embodiment, the user data includes a preset communication network end user out-of-mirror rate, a non-preset communication network end user out-of-mirror rate, a preset communication network reuse number of users, and a non-preset communication network reuse number of users.

The determining module 303 is specifically configured to, when determining whether the target base station is a base station to be frequency-backed by a preset communication network according to the user data:

and determining the equivalent user number of the preset communication network terminal according to the preset communication network terminal user out-of-lens rate and the preset communication network reuse number. And determining the equivalent user number of the non-preset communication network terminal according to the non-preset communication network terminal user out-of-lens rate and the non-preset communication network reuse number of users. And determining whether the target base station is a preset communication network frequency waiting base station according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number.

Optionally, in this embodiment, the determining module 303 is specifically configured to, when determining the number of users equivalent to the preset communication network terminal according to the preset mirror output rate of the preset communication network terminal and the preset number of users for removing the communication network:

and determining the user number corresponding to the preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the sporadic user number of the preset communication network terminal. And determining the difference between the preset communication network reuse user number and the preset communication network terminal sporadic user number as the preset communication network terminal equivalent user number.

Optionally, in this embodiment, the determining module 303 is specifically configured to, when determining the number of equivalent users of the non-preset communication network terminal according to the mirror output rate of the non-preset communication network terminal and the number of reuse users of the non-preset communication network:

and determining the user number corresponding to the fact that the mirror out rate of the non-preset communication network terminal user is smaller than the preset mirror out rate threshold as the sporadic user number of the non-preset communication network terminal. And determining the difference between the number of non-preset communication network de-reuse subscribers and the number of sporadic subscribers of the non-preset communication network terminals as the equivalent number of the non-preset communication network terminals.

Optionally, in this embodiment, the determining module 303 is specifically configured to, when determining whether the target base station is the base station to be frequency-backed by the preset communication network according to the number of equivalent users of the preset communication network terminal and the number of equivalent users of the non-preset communication network terminal:

If the number of the preset equivalent user numbers of the communication network terminals is smaller than the preset equivalent user number threshold value and the number of the equivalent user numbers of the non-preset communication network terminals is zero, determining the target base station as the preset communication network base station to be frequency-backed. If the number of the equivalent users of the preset communication network terminal is smaller than the preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is larger than zero, acquiring the working parameter data of other base stations within the preset distance range of the target base station, and judging whether the network base station with higher specification exists within the preset distance range according to the working parameter data of the other base stations. Wherein, the network specification of the higher specification network base station is higher than the specification of the preset communication network. If the network base station with higher specification exists in the preset distance range, the target base station is determined to be the base station to be frequency-backed off of the preset communication network.

Optionally, in this embodiment, the apparatus further includes:

the recording module is used for acquiring the industrial parameter data of the target base station and recording the industrial parameter data of the target base station in a preset database if the target base station is not the preset communication network to-be-frequency-backed base station.

The network frequency-return device provided in this embodiment may execute the technical scheme of the method embodiment shown in fig. 2-3, and its implementation principle and technical effects are similar to those of the method embodiment shown in fig. 2-3, and are not described in detail herein.

According to an embodiment of the present invention, the present invention also provides an electronic device and a computer-readable storage medium.

Fig. 6 is a schematic structural diagram of an electronic device according to a fifth embodiment of the present invention. The electronic device is a network device. It is intended that various forms of digital computers, such as laptops, desktops, personal digital assistants, servers, blade servers, mainframes, and other appropriate computers, be involved. The electronic device may also represent various forms of mobile devices, such as personal digital processing, cellular telephones, smartphones, wearable devices, and other similar computing devices. The components shown herein, their connections and relationships, and their functions, are meant to be exemplary only, and are not meant to limit implementations of the inventions described and/or claimed herein.

As shown in fig. 6, the electronic device includes: a processor 501, a memory 502, and a controller 503. The various components are interconnected using a bus and may be mounted on a common motherboard or in other manners as desired. The processor may process instructions executing within the electronic device. The controller 503 is configured to perform network frequency back-off for the target base station.

Memory 502 is a computer-readable storage medium provided by the present invention. The memory stores instructions executable by the at least one processor to cause the at least one processor to perform the network frequency de-clocking method provided by the present invention. The computer readable storage medium of the present invention stores computer instructions for causing a computer to execute the network frequency back method provided by the present invention.

The memory 502 is used as a computer readable storage medium, and may be used to store a non-transitory software program, a non-transitory computer executable program, and modules, such as program instructions/modules corresponding to the network frequency-back method in the embodiment of the present invention (e.g., the acquisition module 301, the judgment module 302, the determination module 303, and the frequency-back module 304 shown in fig. 4). The processor 501 executes various functional applications of the server and data processing by running non-transitory software programs, instructions, and modules stored in the memory 502, i.e., implements the network de-clocking method in the method embodiments described above.

Other implementations of the examples of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This invention is intended to cover any variations, uses, or adaptations of embodiments of the invention following, in general, the principles of the embodiments of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the embodiments of the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the embodiments being indicated by the following claims.

It is to be understood that the embodiments of the invention are not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be made without departing from the scope thereof. The scope of embodiments of the invention is limited only by the appended claims.

Claims (8)

1. A network de-clocking method, comprising:

acquiring user data in a preset period of a target base station and service data in the preset period;

judging whether a preset service data threshold is met or not according to the service data;

if not, determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data;

if the target base station is determined to be a base station to be frequency-backed off by a preset communication network, carrying out network frequency-backing off on the target base station;

the user data comprises a preset communication network terminal user out-of-lens rate, a non-preset communication network terminal user out-of-lens rate, a preset communication network reuse number of users and a non-preset communication network reuse number of users;

the determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data comprises:

determining the equivalent user number of the preset communication network terminal according to the preset communication network terminal user out-of-lens rate and the preset communication network reuse user number;

Determining the equivalent user number of the non-preset communication network terminal according to the non-preset communication network terminal user outgoing rate and the non-preset communication network reuse number;

determining whether the target base station is a preset communication network base station to be frequency-backed according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number;

the determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number comprises:

if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is zero, determining that the target base station is a preset communication network to-be-frequency-backed base station;

if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is larger than zero, acquiring the industrial parameter data of other base stations within the preset distance range of the target base station, and judging whether a network base station with higher specification exists within the preset distance range according to the industrial parameter data of the other base stations; wherein the network specification of the higher specification network base station is higher than the specification of the preset communication network;

If the network base station with higher specification exists in the preset distance range, determining the target base station as the base station to be frequency-backed off of the preset communication network.

2. The method of claim 1, wherein the traffic data comprises: base station traffic data and base station traffic data;

the judging whether the preset business data threshold is met according to the business data comprises the following steps:

judging whether a preset service data threshold is met or not according to the base station service data and the base station service data;

and if the base station traffic data and the base station traffic data meet the preset traffic data threshold, performing network frequency back on the target base station.

3. The method of claim 1, wherein the determining the number of preset communication network terminal equivalent users based on the preset communication network terminal user out-of-mirror ratio and the preset communication network de-reuse number of users comprises:

determining the user number corresponding to the preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the sporadic user number of the preset communication network terminal;

and determining the difference between the preset communication network reuse number and the preset communication network terminal sporadic user number as the preset communication network terminal equivalent user number.

4. The method of claim 1, wherein the determining the number of equivalents users of the non-preset communication network terminal based on the non-preset communication network terminal user out-of-service rate and the number of non-preset communication network de-reuse users comprises:

determining the number of users corresponding to the non-preset communication network terminal user out-of-mirror rate smaller than a preset out-of-mirror rate threshold as the number of sporadic users of the non-preset communication network terminal;

and determining the difference value between the number of the non-preset communication network de-reuse subscribers and the number of sporadic subscribers of the non-preset communication network terminal as the equivalent number of the non-preset communication network terminal.

5. The method of claim 1, wherein if the target base station is determined not to be a preset communication network to-be-frequency-backed base station, the method further comprises:

and acquiring the industrial parameter data of the target base station, and recording the industrial parameter data of the target base station in a preset database.

6. A network frequency de-clocking device, comprising:

the acquisition module is used for acquiring user data in a preset period of the target base station and service data in the preset period;

the judging module is used for judging whether a preset service data threshold value is met or not according to the service data;

The determining module is used for determining whether the target base station is a preset communication network to-be-frequency-backed base station according to the user data if the target base station is not satisfied;

the frequency-reversing module is used for carrying out network frequency reversing on the target base station if the target base station is determined to be a base station to be reversed in a preset communication network;

the user data comprises a preset communication network terminal user out-of-lens rate, a non-preset communication network terminal user out-of-lens rate, a preset communication network reuse number of users and a non-preset communication network reuse number of users;

the determining module is specifically configured to, when determining whether the target base station is a preset base station to be frequency-backed by the communication network according to the user data:

determining the equivalent user number of the preset communication network terminal according to the preset communication network terminal user out-of-lens rate and the preset communication network reuse user number; determining the equivalent user number of the non-preset communication network terminal according to the non-preset communication network terminal user outgoing rate and the non-preset communication network reuse number; determining whether the target base station is a preset communication network base station to be frequency-backed according to the preset communication network terminal equivalent user number and the non-preset communication network terminal equivalent user number;

The determining module is specifically configured to, when determining whether the target base station is a preset base station for waiting for frequency cancellation of the communication network according to the preset number of equivalent users of the communication network terminal and the non-preset number of equivalent users of the communication network terminal:

if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is zero, determining that the target base station is a preset communication network to-be-frequency-backed base station; if the number of the equivalent users of the preset communication network terminal is smaller than a preset equivalent user number threshold value and the number of the equivalent users of the non-preset communication network terminal is larger than zero, acquiring the industrial parameter data of other base stations within the preset distance range of the target base station, and judging whether a network base station with higher specification exists within the preset distance range according to the industrial parameter data of the other base stations; wherein the network specification of the higher specification network base station is higher than the specification of the preset communication network; if the network base station with higher specification exists in the preset distance range, determining the target base station as the base station to be frequency-backed off of the preset communication network.

7. An electronic device, comprising: a memory, a processor, and a controller;

The processor, the memory and the controller are interconnected through a circuit;

the memory is used for storing the processor executable instructions;

the controller is used for carrying out network frequency return on the target base station;

wherein the processor is configured to perform the network de-clocking method of any of claims 1 to 5 by the processor.

8. A computer readable storage medium having stored therein computer executable instructions which when executed by a processor are for implementing the network de-clocking method of any of claims 1 to 5.

Images