CN115514648B - Broadband resource point drift detection method, device, equipment and computer storage medium - Google Patents

Abstract

The invention discloses a broadband resource point drift detection method, a device, equipment and a computer program product. The invention can realize the detection of the broadband resource point drift without manually detecting the resource point, and improves the detection efficiency of the broadband resource point drift.

Description

Broadband resource point drift detection method, device, equipment and computer storage medium

technical field

The present invention relates to the technical field of mobile communication, in particular to a method, device, equipment and computer program product for detecting drift of broadband resource points.

Background technique

At present, in the field of mobile communications, some errors are found in the location of broadband resource points in the actual business operation process, which leads to deviations between business data and actual conditions in refined scene marketing.

It should be noted that the existing drift resource points are mainly based on manual feedback and verification, and the detection efficiency is low.

Contents of the invention

The main purpose of the present invention is to provide a broadband resource point drift detection method, device, equipment and computer program product, aiming at solving the technical problem of how to improve the detection efficiency of broadband resource point drift.

In order to achieve the above object, the present invention provides a broadband resource point drift detection method, the broadband resource point drift detection method includes the following steps:

When the drift detection instruction is detected, the names of the resource points in the detection area are obtained, and the resource points are grouped according to the names of the resource points to obtain resource point groups;

determining the microcell set corresponding to the resource point group, and determining the reference microcell of the resource point group according to the microcell set corresponding to the resource point group;

determining the distance between the resource points in the resource point group and the center point of the reference microgrid of the resource point group, and determining the drift result of the resource points in the resource point group according to the distance.

Optionally, the step of determining the reference microgrid of the resource point group according to the microgrid set corresponding to the resource point group includes:

Determine the number of resource points in each micro-grid in the micro-grid set corresponding to the resource point group, and determine the number of bandwidths contained in each micro-grid resource point in the micro-grid set corresponding to the resource point group;

determining the score of each microgrid in the microgrid set corresponding to the resource point group according to the number and the quantity;

It is determined that the micro-grid with the highest score in the micro-grid set corresponding to the resource point group is the reference micro-grid of the resource point group.

Optionally, the step of grouping the resource points according to the names of the resource points includes:

determining the name information that needs to be reserved according to the scope of the detection area, and simplifying the name of the resource point according to the name information that needs to be reserved to obtain a simplified name;

The resource points are grouped according to the simplified names.

Optionally, the step of determining the drift result of the resource points in the resource point group according to the distance includes:

judging whether the distance is greater than a first preset threshold;

If yes, then determine that the resource points in the resource point group have drifted;

If not, it is determined that the resource points in the resource point group do not drift.

Optionally, after the step of determining that the resource points in the resource point group have drifted, it further includes:

If the distance is greater than a second preset threshold, then determine a first name similarity between the resource point in the resource point group and microgrids within a first preset range around the resource point in the resource point group;

Determine the drift type of the resource points in the resource point group according to the first name similarity.

Optionally, after the step of determining that the resource points in the resource point group have drifted, the method further includes:

If the distance is greater than the first preset threshold and less than or equal to the second preset threshold, determine a second preset distance between the resource point in the resource point group and the reference microgrid and the surrounding of the reference microgrid. Secondary name similarity between microlattices in range;

Determine the drift type of the resource points in the resource point group according to the second name similarity.

Optionally, after the step of determining the drift result of the resource points in the resource point group according to the distance, it further includes:

Recording the names and drifting results of the resource points in the detection area, so as to visually display the resource points in the detection area according to the names and drifting results of the resource points in the detection area.

Further, in order to achieve the above purpose, the present invention also provides a broadband resource point drift detection device, the broadband resource point drift detection device includes:

A resource point grouping module, configured to acquire the names of resource points in the detection area when a drift detection instruction is detected, and group the resource points according to the names of the resource points to obtain resource point groups;

A reference microgrid determination module, configured to determine a microgrid set corresponding to the resource point group, and determine a reference microgrid of the resource point group according to the microgrid set corresponding to the resource point group;

A drift result determination module, configured to determine the distance between the resource point in the resource point group and the center point of the reference microgrid of the resource point group, and determine the drift result of the resource point in the resource point group according to the distance .

Further, in order to achieve the above object, the present invention also provides a device for detecting drift of broadband resource points, the device for detecting drift of broadband resource points includes a memory, a processor, and a device stored in the memory and operable on the processor. A broadband resource point drift detection program, when the broadband resource point drift detection program is executed by the processor, implements the steps of the broadband resource point drift detection method as described above.

Further, in order to achieve the above object, the present invention also provides a computer program product, the computer program product includes a broadband resource point drift detection program, and when the broadband resource point drift detection program is executed by a processor, the broadband resource point drift detection program as described above is realized. The steps of the resource point drift detection method.

The wideband resource point drift detection method, device, equipment and computer program product proposed in this application obtain the names of all resource points in the detection area when a drift detection instruction is detected, and group the resource points according to the names to obtain the resource point group , and then determine the microgrid set corresponding to each resource point group, determine the reference microgrid of each resource point group according to the microgrid set corresponding to the resource point group, and determine the distance between the resource point and the reference microgrid center point in each resource point group The distance between them is used to determine the drifting result of the resource points in the resource point group according to the distance. The present invention can realize the detection of drift of broadband resource points without manual detection of resource points, and improves the efficiency of detecting drift of broadband resource points.

Description of drawings

FIG. 1 is a schematic structural diagram of the hardware operating environment of the device involved in the implementation scheme of the broadband resource point drift detection device of the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of a broadband resource point drift detection method according to the present invention;

FIG. 3 is a schematic flow chart of a second embodiment of a broadband resource point drift detection method according to the present invention;

4 is a schematic flowchart of a third embodiment of a broadband resource point drift detection method according to the present invention;

FIG. 5 is a schematic flowchart of a fourth embodiment of a method for detecting drift of a broadband resource point according to the present invention;

FIG. 6 is a schematic flowchart of a fifth embodiment of a broadband resource point drift detection method according to the present invention;

7 is a schematic flowchart of a sixth embodiment of a broadband resource point drift detection method according to the present invention;

FIG. 8 is a schematic flowchart of a seventh embodiment of a broadband resource point drift detection method according to the present invention;

FIG. 9 is a schematic diagram of functional modules of a preferred embodiment of a broadband resource point drift detection device according to the present invention.

The realization of the purpose of the present invention, functional characteristics and advantages will be further described in conjunction with the embodiments and with reference to the accompanying drawings.

Detailed ways

It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

The main solution of the embodiment of the present application is: when a drift detection instruction is detected, obtain the names of all resource points in the detection area, group the resource points according to the names to obtain resource point groups, and then determine the corresponding According to the microgrid set corresponding to the resource point group, determine the benchmark microgrid of each resource point group, determine the distance between the resource point in each resource point group and the center point of the benchmark microgrid, and determine the resource according to the distance The drift result of the resource points in the point group. The present invention can realize the detection of drift of broadband resource points without manual detection of resource points, and improves the efficiency of detecting drift of broadband resource points.

The embodiment of this application considers that in the existing related solutions, in the field of mobile communications, certain errors are found in the location of broadband resource points during actual business operations, which leads to deviations between business data and actual conditions in refined scene marketing. Some drift resource points mainly rely on manual feedback and verification, and the detection efficiency is low.

Therefore, the embodiment of the present application proposes a solution, which can realize the detection of broadband resource point drift without manually detecting resource points, and improves the efficiency of detecting broadband resource point drift.

The present invention provides a broadband resource point drift detection device. Referring to FIG. 1 , FIG. 1 is a schematic structural diagram of the hardware operating environment of the device involved in an embodiment of the broadband resource point drift detection device of the present invention.

As shown in FIG. 1 , the broadband resource point drift detection device may include: a processor 1001 , such as a CPU, a communication bus 1002 , a user interface 1003 , a network interface 1004 , and a memory 1005 . Wherein, the communication bus 1002 is used to realize connection and communication between these components. The user interface 1003 may include a display screen (Display), an input unit such as a keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface and a wireless interface. Optionally, the network interface 1004 may include a standard wired interface and a wireless interface (such as a WI-FI interface). The memory 1005 can be a high-speed RAM memory, or a stable memory (non-volatile memory), such as a disk memory. Optionally, the memory 1005 may also be a storage device independent of the aforementioned processor 1001 .

Those skilled in the art can understand that the hardware structure of the broadband resource point drift detection device shown in FIG. certain components, or a different arrangement of components.

As shown in FIG. 1 , the memory 1005 as a computer-readable storage medium may include an operating system, a network communication module, a user interface module, and a broadband resource point drift detection program. Among them, the operating system is a program for managing and controlling broadband resource point drift detection equipment and software resources, and supports the operation of the network communication module, user interface module, broadband resource point drift detection program, and other programs or software; the network communication module is used for management and Control the network interface 1004; the user interface module is used to manage and control the user interface 1003.

In the hardware structure of the broadband resource point drift detection device shown in Figure 1, the network interface 1004 is mainly used to connect to the background server and perform data communication with the background server; the user interface 1003 is mainly used to connect to the client and perform data communication with the client; The processor 1001 can call the broadband resource point drift detection program stored in the memory 1005, and perform the following operations:

When the drift detection instruction is detected, the names of the resource points in the detection area are obtained, and the resource points are grouped according to the names of the resource points to obtain resource point groups;

determining the microcell set corresponding to the resource point group, and determining the reference microcell of the resource point group according to the microcell set corresponding to the resource point group;

determining the distance between the resource points in the resource point group and the center point of the reference microgrid of the resource point group, and determining the drift result of the resource points in the resource point group according to the distance.

Further, the step of determining the reference microgrid of the resource point group according to the microgrid set corresponding to the resource point group includes:

Determine the number of resource points in each micro-grid in the micro-grid set corresponding to the resource point group, and determine the number of bandwidths contained in each micro-grid resource point in the micro-grid set corresponding to the resource point group;

determining the score of each microgrid in the microgrid set corresponding to the resource point group according to the number and the quantity;

It is determined that the micro-grid with the highest score in the micro-grid set corresponding to the resource point group is the reference micro-grid of the resource point group.

Further, the step of grouping the resource points according to the names of the resource points includes:

determining the name information that needs to be reserved according to the scope of the detection area, and simplifying the name of the resource point according to the name information that needs to be reserved to obtain a simplified name;

The resource points are grouped according to the simplified names.

Further, the step of determining the drift result of the resource points in the resource point group according to the distance includes:

judging whether the distance is greater than a first preset threshold;

If yes, then determine that the resource points in the resource point group have drifted;

If not, it is determined that the resource points in the resource point group do not drift.

Further, after the step of determining that the resource points in the resource point group have drifted, it also includes:

If the distance is greater than a second preset threshold, then determine a first name similarity between the resource point in the resource point group and microgrids within a first preset range around the resource point in the resource point group;

Determine the drift type of the resource points in the resource point group according to the first name similarity.

Further, after the step of determining that the resource points in the resource point group have drifted, it also includes:

If the distance is greater than the first preset threshold and less than or equal to the second preset threshold, determine a second preset distance between the resource point in the resource point group and the reference microgrid and the surrounding of the reference microgrid. Secondary name similarity between microlattices in range;

Determine the drift type of the resource points in the resource point group according to the second name similarity.

Further, after the step of determining the drift result of the resource points in the resource point group according to the distance, it also includes:

Recording the names and drifting results of the resource points in the detection area, so as to visually display the resource points in the detection area according to the names and drifting results of the resource points in the detection area.

In this embodiment, through the above solution, when the drift detection instruction is detected, the names of all resource points in the detection area are obtained, the resource points are grouped according to the names, resource point groups are obtained, and the microgrid set corresponding to each resource point group is determined , determine the reference microgrid of each resource point group according to the microgrid set corresponding to the resource point group, determine the distance between the resource point in each resource point group and the center point of the reference microgrid, and determine the resources in the resource point group according to the distance Point drift results. The broadband resource point drift detection method proposed by the embodiment of the present invention can realize the detection of broadband resource point drift without manually detecting resource points, and improves the efficiency of detecting broadband resource point drift.

The specific implementation manners of the broadband resource point drift detection device of the present invention are basically the same as the embodiments of the broadband resource point drift detection method described below, and will not be repeated here.

Based on the above hardware architecture, an embodiment of a method for detecting drift of a broadband resource point in the present invention is proposed.

Referring to FIG. 2 , FIG. 2 is a schematic flowchart of a first embodiment of a method for detecting drift of a broadband resource point according to the present invention.

The embodiment of the present invention provides an embodiment of a broadband resource point drift detection method. It should be noted that although the logic sequence is shown in the flow chart, in some cases, the sequence shown here may be executed in a different order. steps outlined or described.

In each embodiment of the broadband resource point drift detection method, the execution subject is a broadband resource point drift detection device.

The broadband resource point drift detection method includes:

Step S10, when the drift detection instruction is detected, obtain the names of the resource points in the detection area, and group the resource points according to the names of the resource points to obtain resource point groups;

In the field of mobile communications, certain errors are found in the location of broadband resource points during actual business operations, which leads to deviations between business data and actual conditions in refined scene marketing. The existing drifting resource points are mainly based on manual feedback and verification. The detection efficiency is low.

In order to solve the technical problem of how to improve the detection efficiency of broadband resource point drift, a broadband resource point drift detection method is proposed in the embodiment of the present invention, which aims to obtain the information of all resource points in the detection area when a drift detection instruction is detected. Name, group resource points according to the name to obtain resource point groups, and then determine the microgrid set corresponding to each resource point group, determine the benchmark microgrid of each resource point group according to the microgrid set corresponding to the resource point group, determine each The distance between the resource point in each resource point group and the center point of the reference microgrid, and the drift result of the resource point in the resource point group is determined according to the distance. The present invention can realize the detection of drift of broadband resource points without manual detection of resource points, and improves the efficiency of detecting drift of broadband resource points.

The broadband resource point drift detection method in this embodiment is applicable to devices with a broadband resource point drift detection function.

In this embodiment, when the drift detection instruction is detected, the names of the resource points in the detection area are acquired. Wherein, the drift detection instruction may be issued by the user, for example, the user sends the drift detection instruction through voice; the user sends the drift detection instruction through virtual or physical keys. The drift detection instruction may also be automatically generated every preset period of time, for example, every month, the broadband resource point drift detection device automatically generates a drift detection instruction to detect the drift result of the broadband resource point.

Drift detection instructions can include the area information to be detected, and the detected area can include the whole country. Usually, the smallest detection area is a street, and the street refers to a township-level administrative region. For example, the detection area is Shaoxing City; the detection area is Ke Keqiao Street, Bridge District. The detection area can also be preset.

The resource point is a broadband box, also called a DP box (optical distribution box), which means a broadband resource box installed on the floor of the community or elsewhere in the community, which contains broadband installed by broadband users, and can be connected to multiple home of broadband users. For example, there are multiple broadband resource points in a residential area, and broadband users are provided with broadband services through data lines through the interfaces of these broadband resource points. The name of the resource point generally includes its location information and other information. The location information is detailed to the floor of the community where the resource point is located. Other information may include the device name and/or remark information. For example, the name of a resource point includes location information, equipment information, and remark information, and the name of resource point A is "10th Floor, Unit 2, Building 3, Runze Courtyard, Keqiao Street, Keqiao District, Shaoxing City (DP58) (resident in GF) Resource Point (ABC)", where "(DP58) (resident in GF) resource point" is the device name, "(ABC)" is the remark information, "Shaoxing City" is the city information, "Keqiao District" is the city district information, "Keqiao "Bridge Street" is the street information, "Runze Courtyard" is the community information, and "3 buildings, 2 units, 10 floors" is the floor information.

After obtaining the names of all resource points in the detection area, the resource points are grouped according to the names of the resource points. The rule of grouping resource points is to group the resource points belonging to the same street. Since the name of the resource point contains the location information, resource points can be grouped by resource point names to obtain one, two or more resource point groups, belonging to the same street refers to belonging to the same street according to the location information in the name, excluding street names with the same but actual location different situations. For example, the name of resource point A is "10th Floor, Unit 2, Building 3, Runze Courtyard, Keqiao Street, Keqiao District, Shaoxing City (DP58) (resident in GF) resource point", and the name of resource point B is "Keqiao District, Keqiao District, Shaoxing City The name of resource point ", resource point C is "15th Floor, Unit 1, Building 3, Zhongcheng Apartment, Mashan Street, Yuecheng District, Shaoxing City, Shaoxing City (DP48) (resident in GF)" (resident in AB) resource point" and resource point D are named "2nd floor (DP25) (resident in AB) resource point (DP25) (resident in AB) resource point, Building 1, Zhongcheng Apartment, Mashan Street, Yuecheng District, Shaoxing City, Shaoxing City" Resource point group 1, resource point C and resource point D are resource point group 2.

It should be noted that, in addition to grouping resource points belonging to the same street, resource points belonging to the same municipal district can also be grouped according to the name of the resource point, but the drift of the resource point is determined by this grouping method The accuracy of the result is lower than that of determining the drift result of resource points by grouping resource points belonging to the same street into a group.

Step S20, determining the microcell set corresponding to the resource point group, and determining the reference microcell of the resource point group according to the microcell set corresponding to the resource point group;

In this embodiment, the microgrid is a pre-divided area, and the range of a microgrid is generally the same as the range of the cell in the resource point name, so there will be one, two or more resource points in a microgrid. And the name of Weige is generally "Weige-community name", such as "Weige-Runze Compound". The step of determining the microgrid set corresponding to the resource point group is specifically to obtain the three-dimensional position information of all resource points in the resource point group. The three-dimensional position information is the position information registered when setting up the broadband resource point, which can be obtained by using GPS. The three-dimensional position information Including longitude, latitude and altitude. Wherein, setting the broadband resource point includes setting the resource point for the first time and setting the resource point again, and setting the resource point again means relocating the previously set broadband box. And each microgrid has its own coordinate range, which microgrid the resource point is in can be determined according to the location coordinates of the resource point, so that it can be determined which microgrids all resource points in a resource point group are in. These microgrids A microgrid set corresponding to a resource point group. For example, resource point A in resource point group 1 is in microcell a, resource point B is in microcell a, resource point C is in microcell b, then the microcell set corresponding to resource point group 1 includes microcell a and Microgrid b.

Then determine a benchmark micro-grid from the micro-grid set corresponding to each resource point group. A resource point group corresponds to a benchmark micro-grid. The benchmark micro-grid is the most important micro-grid in the micro-grid set corresponding to a resource point group. The grid is the center of all microgrids corresponding to a resource point group. If the resource point in the resource point group is in the reference microgrid, the resource point has not drifted. The way to determine the benchmark microgrid can be specified by the user or preset. It can also be calculated by calculating the score of each microgrid in the microgrid set corresponding to the resource point group, and the microgrid with the highest score can be used as the benchmark microgrid.

Step S30, determining the distance between the resource point in the resource point group and the center point of the reference microgrid of the resource point group, and determining the drift result of the resource point in the resource point group according to the distance.

In this embodiment, after the reference microgrid of each resource point group is determined, the distance between each resource point in a resource point group and the central point of the reference microgrid of the resource point is determined. The way to determine the center point of the reference microgrid is, since the microgrids have their own ranges when dividing, after obtaining the position coordinates of all resource points in a resource point group, it can be determined which microgrid the resource point is in, so that it can be determined Resource points that exist in each microtile. After determining the resource points in each micro-grid, determine the coordinate position of the center point of each micro-grid according to the coordinate positions of all resource points in each micro-grid, that is, the coordinates of a micro-grid center point are the The average of all resource point coordinates. Therefore, the center point positions of the reference microgrid and other microgrids can be obtained by the above method. For example, if there are resource points A, B, and C in the reference microgrid, the longitude, latitude, and altitude of the central point of the reference microgrid are three-thirds of the sum of longitude, latitude, and altitude of resource points A, B, and C respectively. one.

If the distance between a resource point and the center point is less than or equal to the first preset threshold, it is determined that the resource point has no transmission drift; if the distance between a resource point and the center point is greater than the second preset threshold, it is determined that the resource point has drifted , determine the drift type of the resource point according to the first name similarity between the resource point and the microgrids in the first preset range around the resource point; if the distance between a resource point and the center point is greater than the first preset threshold and less than Or equal to the second preset threshold, it is determined that the resource point has drifted, and according to the second name similarity between the resource point and the reference microgrid and the microgrids in the second preset range around the reference microgrid, according to the second name similarity The degree determines the drift type of the resource point.

The present invention obtains the names of all resource points in the detection area when a drift detection instruction is detected, groups the resource points according to the names, obtains resource point groups, and then determines the microgrid set corresponding to each resource point group, according to the resource point The microgrid set corresponding to the group determines the benchmark microgrid of each resource point group, determines the distance between the resource point in each resource point group and the center point of the benchmark microgrid, and determines the drift result of the resource point in the resource point group according to the distance . The present invention can realize the detection of drift of broadband resource points without manual detection of resource points, and improves the efficiency of detecting drift of broadband resource points.

Further, the second embodiment of the broadband resource point drift detection method of the present invention is proposed. In the above step S20, the step of determining the reference microcell of the resource point group according to the microcell set corresponding to the resource point group includes:

Step S201, determining the number of resource points in each microcell in the microcell set corresponding to the resource point group, and determining the number of broadband contained in each microcell in the microcell set corresponding to the resource point group;

Step S202, determining the score of the micro-cell corresponding to the resource point group according to the number and the quantity;

Step S203, determining that the micro-grid with the highest score in the micro-grid set corresponding to the resource point group is the reference micro-grid of the resource point group.

In this embodiment, the method of determining the reference microgrid of a resource point group according to the microgrid set corresponding to the resource point group may be to calculate the score of each microgrid in the microgrid set corresponding to the resource point group, and assign the highest score The microgrid is used as the benchmark microgrid. Obtain the set of microgrids corresponding to a resource point group, the number of resource points in each microgrid, and the number of broadband installed at each resource point in each microgrid, then you can get all the resources in each microgrid The number of points x and the number y of all installed broadband in the microgrid, the score of each microgrid A=a ₁ *x+a ₂ *y, where a ₁ and a ₂ represent the number of resource points and The weight of the number of broadband is used to indicate the relative importance of the number of resource points and the number of broadband, that is, the degree of influence on the microgrid. This is because there may be many resource points in a microgrid, but each resource point is installed The number of widths may be less, so it is necessary to compare the importance of the number of resource points in the microgrid with the importance of the total number of installation widths. Among them, a ₁ and a ₂ can be specified by the user; they can also be set in advance; and the relative importance between the number of resource points and the number of broadband can be determined by investigating the actual use of broadband users.

After determining the score of each micro-grid corresponding to a resource point group, the micro-grid with the highest score is used as the benchmark micro-grid of the resource point group. If there are multiple micro-grids with the highest scores, the micro-grid with the largest range among the multiple highest-scoring micro-grids can be determined as the benchmark micro-grid; or the micro-grid with the largest number of resource points among the multiple highest-scoring micro-grids can be determined is the benchmark microgrid; it can also be determined that the microgrid with the largest number of installed broadband among the microgrids with the highest scores is the benchmark microgrid.

The way to determine the reference microgrid can also be, for a specific resource point z ∈ Z (Z is a specific resource point group), obtain the number b of broadband installed at the resource point z, and according to the three-dimensional position coordinates of the resource point z (lat ,lon,at), the microcell w to which resource point z belongs, and the number b of broadband installed at resource point z, a six-tuple <w,z,b,lat,lon,at> can be obtained, and the micro The six-tuples with the same grid information are divided into a cluster, that is, all the six-tuples in a cluster have the same w, and the score of each cluster A _i =a ₁ *sum(b)+a ₂ *count(six-tuple group), where a ₁ and a ₂ can be specified by the user; they can also be preset; it is also possible to determine the relative importance between the number of resource points and the number of broadband by examining the actual use of broadband users. After determining the score of each cluster, select the cluster with the highest score, and use the microgrid corresponding to the cluster as the benchmark microgrid. Then determine the distance between all six-tuples and the center point of the reference microgrid. If the distance is less than or equal to the first preset threshold, it means that the resource point corresponding to the six-tuple is in the reference microgrid, and the resource point has not drifted .

In this embodiment, the benchmark microgrid is determined according to the number of resource points in the microgrid and the number of installed broadband, and the benchmark microgrid can be determined by comparing the importance of the number of resource points and the number of broadband, which improves the efficiency of determining the benchmark microgrid. The accuracy; at the same time, different benchmark microgrids can be determined according to different actual conditions, so that the determined benchmark microgrids can conform to the actual situation.

Further, the third embodiment of the broadband resource point drift detection method of the present invention is proposed. In the above step S10, the step of grouping the resource points according to the names of the resource points includes:

Step S101, determining the name information that needs to be reserved according to the scope of the detection area, and simplifying the name of the resource point according to the name information that needs to be reserved to obtain a simplified name;

In this embodiment, in order to improve the efficiency of grouping, the names of the resource points may be simplified to obtain simplified names, and then the resource points are grouped according to the simplified names. Specifically, first determine the name information that needs to be reserved according to the scope of the detection area, because when grouping resource points, only need to group resource points in the same street according to the name of the resource point, so the name that needs to be reserved can be determined Information, remove other information in the resource point name.

However, because in the same city, there are generally no streets with the same name, but in different cities, there may be streets with the same name, so if the range of the detection area is within a city, the name of the resource point To remove information other than street information and community information, the name information that needs to be retained is the street information and community information in the resource point name; if the scope of the detection area includes multiple cities, the name information that needs to be preserved can be the resource point name. All location information with the cell as the smallest unit, and other information is removed.

In the name of the resource point, in addition to the location information, it generally includes equipment and/or remarks information. The equipment information and the remarks information have special identification marks, and the floor information in the resource point name will be represented by a number, so the resources The way to simplify the point name can be to convert the Chinese characters and numbers in the resource point name into Arabic numerals, use regular expressions to remove the equipment information and remark information in the resource point name according to the special identification mark, and then remove the resource through the regular mark Arabic numerals and the information after the Arabic numerals in the point name, so as to obtain a simplified name; or replace the floor information in the resource point name with "_", "_" represents a set of wildcards including numbers and units. If there is repeated street information and/or cell information in the obtained simplified name, the repeated information in the simplified name is removed to obtain the simplest information, and the resource points are grouped according to the simplified information. For example, if the simplified name is "Runze Courtyard, Heqiao Street, Heqiao Street", then the simplified name is simplified again to obtain the simplest name "Runze Courtyard, Heqiao Street".

Step S102, grouping the resource points according to the simplified names.

After the simplified name is obtained, the resource points with the same information before the cell information in the simplified name can be directly grouped into a group. For example, when the scope of the detection area is in the same city, the simplified name of resource point A is "Zhongshan Subdistrict a", and the simplified name of resource point B is "Xuefu Street b". The simplified name of resource point C is "Zhongshan Street c Community", and the simplified name of resource point D is "Xuefu Street d Community", then resource point A and resource point C are divided into resource point group 1, and resource point B and resource point Point D is divided into resource point group 2; when the scope of the detection area is not in the same city, the simplified name of resource point E is "E Community, Zhongshan Street, Longgang District, Shenzhen City", and the simplified name of resource point F is "Shenzhen Nanshan District Xuefu Street F Community". The simplified name of resource point G is "g community, Zhongshan Street, Chaoyang District, Beijing", and the simplified name of resource point H is "h community, Xuefu Street, Nanshan District, Shenzhen". Resource points F and H are divided into resource point group 3, Divide resource point E into resource point group 4, and resource point G into resource point group 5.

In this embodiment, before the resource points are grouped, the names of the resource points are simplified, and the information irrelevant to the grouping in the name is removed, so that the efficiency and accuracy of resource point grouping can be improved.

Further, the fourth embodiment of the broadband resource point drift detection method of the present invention is proposed. In the above step S30, the step of determining the drift result of the resource point in the resource point group according to the distance includes:

Step S301, judging whether the distance is greater than a first preset threshold;

Step S302, if yes, determine that the resource points in the resource point group have drifted;

Step S303, if not, determine that the resource points in the resource point group do not drift.

In this embodiment, it is judged whether the distance between a certain resource point in the resource point group and the reference microgrid center point of the resource point group is greater than the first preset threshold, and if it is greater than the first preset threshold, then determine the If the resource point has drifted, the drift type of the resource point can be further determined according to the distance; if the distance between a certain resource point in the resource point group and the reference microgrid center point of the resource point group is less than or equal to the first preset If the threshold value indicates that the resource point is in the reference microcell, it is determined that the resource point has not drifted, and the reference microcell is the microcell to which the resource point actually belongs.

In this embodiment, when the distance between the resource point and the center point of the reference microgrid is less than or equal to the first preset threshold, it can be accurately determined that the resource point is in the reference microgrid without drifting; when the distance is greater than the first preset threshold , it is determined that the resource point has drifted, and the accuracy of determining the drift result is improved.

Further, the drift type of the resource point can be determined according to the distance combined with the second preset threshold, wherein:

As an implementation mode, the fifth embodiment of the broadband resource point drift detection method of the present invention is proposed. In the above step S302, after the step of determining that the resource points in the resource point group have drifted, it also includes:

Step S30211, if the distance is greater than the second preset threshold, determine that the first name between the resource point in the resource point group and the microgrid within the first preset range around the resource point in the resource point group is similar Spend;

In this embodiment, when the distance is greater than the first preset threshold, the resource point has drifted, and at this time, the drift type of the resource point that has drifted can be determined according to the distance and the second preset threshold. The second preset threshold is greater than the first preset threshold. If the distance between a certain resource point in a resource point group and the reference microgrid center point of the resource point group is greater than the second preset threshold, a distance measurement method such as edit distance can be used to determine the distance between the resource point and the reference microgrid center point of the resource point group. The first name similarity between microcells in the first preset range around the resource point, the microcells in the first preset range around the resource point means the microcells whose center point is in the first preset range around the resource point . The name similarity refers to the similarity between the name of the resource point and the name of the Weige. The name of the Weige is generally the same as the community information in the name of the resource point. For example, the name of the Weige is "Weige-Runze Courtyard". The method of determining the name similarity between the resource point and the micro-grid may be to determine the minimum steps required to increase, decrease or modify a character in the name of the resource point to become a micro-grid name, and use the minimum steps to determine the name similarity, The smaller the minimum steps are, the higher the name similarity is, and the name similarity=1-minimum steps/max(resource point name length, microgrid name length).

Step S30212. Determine the drift type of the resource points in the resource point group according to the first name similarity.

After determining the first name similarity between the resource point and the microcells within the first preset range around the resource point, determine whether there is a first name similarity between the microcell and the resource point that is greater than or equal to the similarity threshold . If it exists, determine the microcell with the highest first name similarity between the resource point and the resource point among the microcells within the first preset range around the resource point, and determine that the microcell is suspected to belong to the resource point. The drifting type of the resource point is "remote set address"; if it does not exist, determine that the reference microgrid is the suspected microgrid of the resource point, and the drifting type of the resource point is "the resource point has been relocated without changing its name".

In this embodiment, when the resource point is outside the reference microgrid and is far away from the reference microgrid, it is determined what kind of drift has occurred in the resource point according to the name similarity between the resource point and the microgrid around the resource point, which improves the determination of drift. type of accuracy.

As another implementation mode, the sixth embodiment of the broadband resource point drift detection method of the present invention is proposed. In the above step S302, after the step of determining that the resource points in the resource point group have drifted, it also includes:

Step S30221, if the distance is greater than the first preset threshold and less than or equal to the second preset threshold, then determine the distance between the resource point in the resource point group and the reference microcell and the distance between the reference microcell and the periphery of the reference microcell. a second name similarity between microcells within two preset ranges;

In this embodiment, when the distance is greater than the first preset threshold, the resource point drifts. At this time, the drift type of the resource point drifting can be determined according to the distance, the second preset threshold, and the first preset threshold. If the distance between a resource point in a resource point group and the reference microgrid center point of the resource point group is greater than the first preset threshold and less than or equal to the second preset threshold, then determine the distance between the resource point and the reference microgrid center point. The second name similarity between microgrids and microgrids within the second preset range around the reference microgrid. The microgrids within the second preset range around the benchmark microgrid indicate that the center point is at the center point of the benchmark microgrid Microdivisions within the second preset range around. The manner of determining the similarity of the second name may be the same as the manner of determining the similarity of the first name in the above embodiment.

Step S30222. Determine the drift type of the resource points in the resource point group according to the second name similarity.

After determining the similarity of the second name, determine the microgrid with the highest second name similarity with the resource point among the microgrids in the reference microgrid and the microgrids within the second preset range around the reference microgrid, then the microgrid is If the microgrid that the resource point is suspected to belong to is a base microgrid, then the drift type of the resource point is "resource position greatly drifts"; if the microgrid is not a base microgrid, then the drift type of the resource point It is "resource point entry error". The first preset range and the second preset range may be the same or different.

In this embodiment, when the resource point is outside the reference micro-grid and the resource point is close to the reference micro-grid, it is determined according to the name similarity between the resource point and the reference micro-grid and the micro-grids around the reference micro-grid. type of drift, improving the accuracy of determining the type of drift.

Further, the seventh embodiment of the broadband resource point drift detection method of the present invention is proposed. In any of the above steps, after the step of determining the drift result of the resource point in the resource point group according to the distance, it further includes:

Step S40, recording the names and drifting results of the resource points in the detection area, so as to visually display the resource points in the detection area according to the names and drifting results of the resource points in the detection area.

In this embodiment, after the drift result of the resource point is determined, the information of the resource point is recorded, the name of each resource point in the detection area and the corresponding drift result can be recorded, and the visual tool can be used to and drift results to visualize the drift of resource points. It should be noted that, in addition to recording the drift results of each resource point, it is also possible to record the three-dimensional position coordinates of each resource point, the name of the actual microcell corresponding to each resource point or the name of the suspected microcell, each The three-dimensional position coordinates of the center point of the actual or suspected micro-cell corresponding to each resource point, the simplified name of each resource point, the name of the micro-cell where the three-dimensional position coordinates of each resource point is located, and the relationship between each resource point and Corresponding to one or more of the name similarities between suspected microcells. Among them, the method of recording various information of resource points can be to record the information of each resource point through the extensible markup language XML, and then convert the information to a certain extent, and use visualization tools to visualize the information of each resource point on the map exhibit. For example, the information of resource points is recorded through XML, and the information of each resource point is contained in a <source_point> node. The <source_point> node includes various information record nodes, such as the <name> node records the name of the resource point , the <p_name> node records the simplified name of the resource point, the <coordinates> node records the three-dimensional position coordinates (longitude, latitude, altitude) of the resource point, <m_grid> records the name of the microgrid where the three-dimensional position coordinates of the resource point are located, <s_grid><s_coordinat>Record the name of the microgrid that the resource point is suspected to belong to and the three-dimensional position coordinates of the center point of the suspected microgrid, or record the name of the microgrid that the resource point actually belongs to and the center point of the microgrid it actually belongs to Three-dimensional position coordinates, <g_score> records the name similarity between the resource point and the suspected microcell, <mis_type> records the drift result of the resource point, and the <k_*> field records the kml compatible field. After a certain simple conversion, The saved resource point information can be visualized on the map.

In this embodiment, by recording the name of the resource point and the drift result, the resource point can be visually displayed, which can make the user perceive the drift result of the resource point more clearly, and improve the user experience.

The embodiment of the present invention also provides a broadband resource point drift detection device.

Referring to FIG. 3 , FIG. 3 is a schematic diagram of functional modules of a first embodiment of an apparatus for detecting drift of broadband resource points according to the present invention. The broadband resource point drift detection device includes:

The resource point grouping module 10 is used to obtain the name of the resource point in the detection area when the drift detection instruction is detected, and group the resource points according to the name of the resource point to obtain a resource point group;

A reference microgrid determining module 20, configured to determine the microgrid set corresponding to the resource point group, and determine the reference microgrid of the resource point group according to the microgrid set corresponding to the resource point group;

Drift result determination module 30, configured to determine the distance between the resource point in the resource point group and the center point of the reference microgrid of the resource point group, and determine the drift of the resource point in the resource point group according to the distance result.

In addition, the present invention also proposes a computer program product, including a broadband resource point drift detection program, and when the broadband resource point drift detection program is executed by a processor, the steps of the broadband resource point drift detection method described above are implemented.

The specific implementation manners of the computer program product of the present invention are basically the same as the embodiments of the broadband resource point drift detection method described above, and will not be repeated here.

It should be noted that, as used herein, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article or system comprising a set of elements includes not only those elements, It also includes other elements not expressly listed, or elements inherent in the process, method, article, or system. Without further limitations, an element defined by the phrase "comprising a..." does not preclude the presence of additional identical elements in the process, method, article or system comprising that element.

The serial numbers of the above embodiments of the present application are for description only, and do not represent the advantages and disadvantages of the embodiments.

Through the description of the above embodiments, those skilled in the art can clearly understand that the methods of the above embodiments can be implemented by means of software plus a necessary general-purpose hardware platform, and of course also by hardware, but in many cases the former is better implementation. Based on this understanding, the technical solution of the present application can be embodied in the form of a software product in essence or in other words, the part that contributes to the prior art, and the computer software product is stored in one of the above storage media (such as ROM/RAM, magnetic CD, CD), including several instructions to make a terminal device (which may be a mobile phone, computer, server, controlled terminal, or network device, etc.) execute the method of each embodiment of the present application.

The above are only preferred embodiments of the present application, and are not intended to limit the patent scope of the present application. All equivalent structures or equivalent process transformations made by using the description of the application and the accompanying drawings are directly or indirectly used in other related technical fields. , are all included in the patent protection scope of the present application in the same way.

Claims (9)

1. The broadband resource point drift detection method is characterized by comprising the following steps of:

when a drift detection instruction is detected, acquiring the names of resource points in a detection area, and grouping the resource points according to the names of the resource points to obtain a resource point group; wherein the broadband resource points comprise broadband boxes, and the step of grouping the resource points according to the names of the resource points to obtain resource point groups comprises the following steps: grouping the resource points according to the position information in the names of the resource points to obtain a resource point group;

determining a micro-grid set corresponding to the resource point group, and determining a reference micro-grid of the resource point group according to the micro-grid set corresponding to the resource point group; the step of determining the reference micro grid of the resource point group according to the micro grid set corresponding to the resource point group comprises the following steps: determining the number of resource points of each micro grid in the micro grid set corresponding to the resource point group, and determining the number of broadband contained in the resource points of each micro grid in the micro grid set corresponding to the resource point group; determining the scores of all the micro grids in the micro grid set corresponding to the resource point group according to the number and the quantity; determining the micro grid with the highest score in the micro grid set corresponding to the resource point group as a reference micro grid of the resource point group;

And determining the distance between the resource points in the resource point group and the center point of the reference micro grid of the resource point group, and determining the drift result of the resource points in the resource point group according to the distance.

2. The broadband point drift detection method according to claim 1, wherein the step of grouping the points according to the names of the points comprises:

determining name information to be reserved according to the range of the detection area, and simplifying the name of the resource point according to the name information to be reserved to obtain a simplified name;

and grouping the resource points according to the simplified names.

3. The method of claim 1, wherein the step of determining the drift result of the source points in the source point group according to the distance comprises:

judging whether the distance is larger than a first preset threshold value or not;

if yes, determining that the resource points in the resource point group drift;

if not, determining that the resource points in the resource point group do not drift.

4. The method for detecting wide-band source point drift as set forth in claim 3, wherein after said step of determining that a source point in said set of source points has drifted, further comprising:

If the distance is larger than a second preset threshold value, determining first name similarity between the resource points in the resource point group and micro cells in a first preset range around the resource points in the resource point group;

and determining the drift type of the resource points in the resource point group according to the first name similarity.

5. The method for detecting wide-band source point drift as set forth in claim 3, wherein after said step of determining that a source point in said set of source points has drifted, further comprising:

if the distance is larger than a first preset threshold value and smaller than or equal to a second preset threshold value, determining second name similarity between the resource points in the resource point group and the reference micro-grid and between the resource points in the resource point group and micro-grids in a second preset range around the reference micro-grid;

and determining the drift type of the resource points in the resource point group according to the second name similarity.

6. The method for detecting wide-band source point drift as set forth in any one of claims 1 to 5, further comprising, after the step of determining a drift result of source points in the source point group based on the distance:

and recording the names and the drifting results of the resource points in the detection area, so as to visually display the resource points in the detection area according to the names and the drifting results of the resource points in the detection area.

7. A broadband resource point drift detection device, characterized in that the broadband resource point drift detection device comprises:

the resource point grouping module is used for acquiring the names of the resource points in the detection area when the drift detection instruction is detected, and grouping the resource points according to the names of the resource points to obtain a resource point group; wherein the broadband resource points comprise broadband boxes, and the step of grouping the resource points according to the names of the resource points to obtain resource point groups comprises the following steps: grouping the resource points according to the position information in the names of the resource points to obtain a resource point group;

the reference micro grid determining module is used for determining a micro grid set corresponding to the resource point group, and determining a reference micro grid of the resource point group according to the micro grid set corresponding to the resource point group; the step of determining the reference micro grid of the resource point group according to the micro grid set corresponding to the resource point group comprises the following steps: determining the number of resource points of each micro grid in the micro grid set corresponding to the resource point group, and determining the number of broadband contained in the resource points of each micro grid in the micro grid set corresponding to the resource point group; determining the scores of all the micro grids in the micro grid set corresponding to the resource point group according to the number and the quantity; determining the micro grid with the highest score in the micro grid set corresponding to the resource point group as a reference micro grid of the resource point group;

And the drift result determining module is used for determining the distance between the resource points in the resource point group and the center point of the reference micro grid of the resource point group, and determining the drift result of the resource points in the resource point group according to the distance.

8. A broadband point drift detection device comprising a memory, a processor and a broadband point drift detection program stored on the memory and operable on the processor, the broadband point drift detection program when executed by the processor implementing the steps of the broadband point drift detection method according to any one of claims 1-6.

9. A computer storage medium comprising a wideband asset point drift detection program which, when executed by a processor, implements the steps of the wideband asset point drift detection method of any of claims 1-6.