CN110881189B - Monitoring method and terminal for distribution state of base station - Google Patents

Abstract

The invention is suitable for the technical field of satellite communication, and provides a monitoring method and a terminal for a base station distribution state, wherein the monitoring method comprises the following steps: receiving a status indication of a user; and acquiring and displaying the current state information of each base station based on the state indication and the current networking relation diagram, wherein the state information comprises the redundancy of the corresponding base station. In the invention, the current state information of each base station is acquired according to the current networking relation graph, and the accuracy of the state information is improved.

Description

Monitoring method and terminal for distribution state of base station

Technical Field

The invention belongs to the technical field of satellite communication, and particularly relates to a method and a terminal for monitoring a distribution state of a base station.

Background

In the prior art, a base station is used for acquiring observation data in satellite navigation positioning, and the base station is mainly used for performing long-term and continuous observation on a navigation signal of a satellite and transmitting the observation data to a ground observation station through communication setting. In order to improve the positioning accuracy, base stations need to be constructed nationwide, and the installation positions and densities of the base stations depend on the networking conditions. When the redundancy of each base station needs to be detected, the results can only be checked one by one.

At present, the distribution of base stations is mainly realized by depending on a fixed networking condition, and because the networking condition changes along with time, the accuracy of acquiring the state data of the base stations by depending on the fixed networking condition is not high.

Disclosure of Invention

The embodiment of the invention provides a method and a terminal for monitoring a distribution state of a base station, and aims to solve the problem of low accuracy caused by acquiring state data of the base station depending on a fixed networking condition in the prior art.

A method for monitoring the distribution state of a base station comprises the following steps:

receiving a status indication of a user;

and acquiring and displaying the current state information of each base station based on the state indication and the current networking relational graph, wherein the state information comprises the redundancy of the corresponding base station.

Preferably, the status indication is a base station status query indication, and the acquiring and displaying the current status information of each base station based on the status indication and the current networking relationship diagram includes:

acquiring current total base station data based on the reference state query indication, wherein the total base station data comprises data of each base station, and the data of each base station comprises corresponding position information;

respectively calculating the redundancy of each base station based on the current networking relational graph and the current total base station data;

and displaying the state information of each base station.

Preferably, the respectively calculating the redundancy of each base station based on the current networking relationship diagram and the data of each base station includes:

acquiring a combination structure of a corresponding base station based on a current networking relational graph and the data of the base station;

and calculating the redundancy of the corresponding base station based on the combined structure.

Preferably, before obtaining the composite structure of the corresponding base station based on the current networking relationship diagram and the data of the base station, the method further includes:

receiving a prompt of missing base stations, wherein the prompt carries the position information of the missing base stations;

and updating the networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as the current networking relation graph.

Preferably, after the obtaining and displaying the current state information of each base station based on the state indication and the current networking relationship diagram, the method further comprises:

receiving a correction instruction;

and updating the current networking relation graph based on the correction instruction, and acquiring and displaying the current state information of each base station.

Preferably, the modifying instruction is an instruction to newly build a base station, and the updating the current networking relationship diagram based on the modifying instruction and the obtaining and displaying the current state information of each base station include:

acquiring the position information of the newly-built base station;

updating the networking relationship diagram based on the position information;

and updating and displaying the state information of the current total base station based on the updated networking relation diagram, wherein the state information of the total base station comprises the state information of the newly-built base station.

Preferably, the modifying indication is a base station removing indication, the removing indication carries location information of a base station that needs to be removed, and updating the current networking relationship diagram and displaying the current state information of each base station based on the modifying indication includes:

updating the networking relation graph based on the position information of the base station needing to be removed to obtain an updated networking relation graph;

updating and showing state information for each non-removed base station based on the updated networking relationship map.

Preferably, the modifying indication is a prompt indicating that a base station is absent, and updating the current networking relationship diagram and displaying the current state information of each base station based on the modifying indication includes:

updating the networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as the current networking relation graph;

and displaying the current state information of each base station based on the current networking relation diagram.

Preferably, the combined structure is a triangular structure, and the calculating the redundancy of the corresponding base station based on the combined structure includes:

obtaining corresponding length information based on the triangular structure;

and acquiring the redundancy of the corresponding base station based on the length information.

Preferably, the status indication is a base station removal indication, the removal indication carries location information of a base station that needs to be removed, and the updating the current networking relationship diagram and displaying the current status information of each base station based on the correction indication includes:

updating the networking relation graph based on the position information of the base station needing to be removed to obtain an updated networking relation graph;

updating and displaying state information of each unremoved base station based on the updated networking relationship diagram.

Preferably, the status indication is an indication of a newly-built base station, the indication of the newly-built base station carries location information of the newly-built base station, and the obtaining and displaying of the current status information of each base station based on the status indication and the current networking relationship diagram includes:

updating the networking relationship diagram based on the position information;

and updating and displaying the state information of the current total base station based on the updated networking relation diagram, wherein the state information of the total base station comprises the state information of the newly-built base station.

Preferably, the obtaining reference information of the newly-built base station and displaying the current state information of each base station based on the indication of the newly-built base station and the current networking relationship diagram includes:

acquiring position information of a base station to be newly built;

updating the current networking relation graph based on the acquired position information;

and acquiring and displaying the state information of the current total base station based on the updated networking relation diagram, wherein the state information of the total base station comprises the state information of the newly-built base station.

The invention also provides a monitoring terminal of the base station distribution state, which comprises:

a receiving unit, configured to receive a status indication of a user;

and the monitoring unit is used for acquiring and displaying the current state information of each base station based on the state indication and the current networking relation graph, and the state information comprises the redundancy of the corresponding base station.

The present invention also provides a memory storing a computer program, wherein the computer program is executed by a processor to perform the steps of:

receiving a status indication of a user;

and acquiring and displaying the current state information of each base station based on the state indication and the current networking relational graph, wherein the state information comprises the redundancy of the corresponding base station.

The invention also provides a service terminal, which comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the processor executes the computer program to realize the following steps:

receiving a status indication of a user;

and acquiring and displaying the current state information of each base station based on the state indication and the current networking relation diagram, wherein the state information comprises the redundancy of the corresponding base station.

In the embodiment of the invention, the current state information of each base station is obtained according to the current networking relational graph, so that the accuracy of the state information is improved.

Drawings

Fig. 1 is a flowchart of a method for monitoring a distribution status of a base station according to a first embodiment of the present invention;

fig. 2 is a flowchart illustrating a step S2 of a method for monitoring a distribution status of a base station according to a first embodiment of the present invention;

fig. 3 is a detailed flowchart of step S22 of a preferred method for monitoring a distribution status of a base station according to a first embodiment of the present invention;

fig. 4 is a detailed flowchart of step S2 of another preferred method for monitoring a distribution status of a base station according to the first embodiment of the present invention;

fig. 5 is a detailed flowchart of step S2 of another preferred method for monitoring a distribution status of a base station according to the first embodiment of the present invention;

fig. 6 is a detailed flowchart of step S2 of another preferred method of monitoring a distribution status of base stations according to a first embodiment of the present invention;

fig. 7 is a flowchart of a preferred method for monitoring a distribution status of base stations according to a first embodiment of the present invention;

fig. 8 is a structural diagram of a monitoring terminal for base station distribution status according to a second embodiment of the present invention;

fig. 9 is a detailed structural diagram of a monitoring unit 2 in a preferred embodiment of a monitoring terminal for a base station distribution status according to a second embodiment of the present invention;

fig. 10 is a specific structural diagram of a monitoring unit 2 in another preferred implementation of a monitoring terminal for base station distribution status according to a second embodiment of the present invention;

fig. 11 is a specific structural diagram of a monitoring unit 2 in another preferred implementation of a monitoring terminal for a base station distribution status according to a second embodiment of the present invention;

fig. 12 is a specific structural diagram of a monitoring unit 2 in another preferred implementation of a monitoring terminal for base station distribution status according to a second embodiment of the present invention;

fig. 13 is a structural diagram of a service terminal according to a third embodiment of the present invention.

Detailed Description

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

In an embodiment of the present invention, a method for monitoring a distribution status of a base station includes: receiving a status indication of a user; and acquiring and displaying the current state information of each base station based on the state indication and the current networking relational graph, wherein the state information comprises the redundancy of the corresponding base station.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

The first embodiment is as follows:

fig. 1 is a flowchart illustrating a method for monitoring a distribution status of a base station according to a first embodiment of the present invention, where the method includes:

step S1, receiving the status indication of the user;

specifically, the user sends a corresponding status indication according to the own requirement, wherein the status indication may be sent by a button or a web page input, or may be sent by a sound or the like, which is not limited herein.

Step S2, acquiring and displaying the current state information of each base station based on the state indication and the current networking relation graph;

specifically, a current networking relation graph is obtained according to a state indication of a user, the networking relation graph is preferably a relation structure graph among base stations in the national range, state information of each base station at present is obtained according to the networking relation graph, the state information comprises position information (longitude and latitude) of the base station, a site code and current redundancy, the redundancy is used for representing the construction density of the base station, and when the construction density of the base station exceeds a preset value, the distance of a base line is still within a preset range after one base station is removed.

In this embodiment, the state information of each base station is acquired according to the current networking relationship diagram, so that the accuracy of the state information is improved.

In a preferred aspect of this embodiment, the status indication is specifically a base station status query indication, as shown in fig. 2, which is a specific flowchart of step S2 of the method for monitoring a distribution status of a base station according to the first embodiment of the present invention, where the step S2 specifically includes:

step S21, acquiring the current total base station data;

specifically, current total base station data is acquired, where the total base station data includes data of each base station distributed nationwide, and the data includes location information, a station code, and the like corresponding to the base station.

Step S22, respectively calculating the redundancy of each base station based on the current networking relation graph and the current total base station data;

specifically, a corresponding networking relationship diagram is obtained according to a networking algorithm, and the redundancy of each base station is calculated according to the currently obtained networking relationship diagram and the total base station data.

Step S23, displaying the status information of each base station;

specifically, after the redundancy of each base station is calculated, the redundancy is combined with the obtained data of each base station to assemble, so as to obtain corresponding status information, and the status information of each base station is displayed in combination, preferably in a list form, or in a text form, on a display screen or in another carrier, which is not limited herein.

In a preferable solution of this embodiment, a redundancy threshold may also be preset, and when the redundancy threshold is exceeded, the corresponding base station needs to be highlighted, for example, highlighted by a color, green indicates that the distances between the current base station and the adjacent base stations are all within the preset range, yellow indicates that the distance between the current base station and the adjacent base stations exceeds the preset range, but the distance difference is within the allowable range, and red indicates that the difference between the distances between the current base station and the adjacent base stations is not within the allowable range, where specific values of the preset range and the allowable range may be set according to actual situations, and this is not limited here. Or the reminding is carried out in an inclined font or other forms, so that the user can visually see the current state of each base station.

In a further preferred embodiment of this embodiment, the redundancy calculation process of each base station is as follows, as shown in fig. 3, which is a specific flowchart of step S22 of a preferred method of monitoring a distribution status of base stations according to the first embodiment of the present invention, and the step S22 specifically includes:

step S221, acquiring a combination structure of a corresponding base station based on the current networking relation diagram and the data of the base station;

specifically, a combination structure corresponding to the base station is obtained based on the current networking relationship diagram and the data of the base station, the combination structure is a triangular structure formed by three base stations, each corner corresponds to one base station, the corresponding combination structure is obtained according to the position of the base station, and in general, one base station corresponds to more than two triangular structures.

Step S222, calculating the redundancy of the corresponding base station based on the combined structure;

specifically, the redundancy of the corresponding base station is calculated according to the triangle structure class, and the step S222 specifically includes:

firstly, neglecting the base station, and reforming a triangular structure (the base station is in the triangular structure);

acquiring side length information of the triangular structure, wherein the side length information comprises the side length of each side of the triangular structure;

obtaining redundancy data of the corresponding base station based on the side length information;

further, it is assumed that the base station does not exist (neglecting the base station), a triangle structure is formed by the base stations around the reference again, each side length of the triangle structure where the neglected base station is located is obtained, and redundancy data of the triangle structure is obtained. When the base station has redundancy, corresponding redundancy is calculated. Or, a corresponding relation list of the redundancy and the average value of the side lengths is preset, the redundancy corresponding to the base station can be obtained according to the side lengths, and as long as the whole side lengths of the triangular structure are marked as green, the corresponding redundancy is further obtained from the corresponding relation list according to the average value of the side lengths of the three sides of the triangular structure.

It should be noted that, a correspondence table is preset, and the correspondence table includes correspondence between the value of the side length of the triangle structure corresponding to the longitude and latitude and the color, for example: when the current longitude and latitude is (X, Y), the side length of less than 10km is represented by green, 10-15km is represented by yellow, 15-20km is represented by red, and the green represents that the base line corresponding to the side length is qualified.

In a further preferable solution of this embodiment, before the step S221, the method may further include:

receiving a prompt that a base station is absent;

specifically, a base station missing prompt is received, which may be system real-time detection, and if one or more base stations are suddenly found to lose contact, a base station missing prompt is sent, and the prompt carries the position information and the corresponding codes of the missing base stations.

Updating a networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as a current networking relation graph; specifically, when the indication that the base station is missing is received, the corresponding missing base station is removed from the networking relationship diagram, the networking relationship diagram is updated, the updated networking relationship diagram is used as the current networking relationship diagram, and then the step S221 is performed.

In another preferred aspect of this embodiment, the status indication is specifically a correction indication, and the step S2 is specifically: and updating the current networking relation graph based on the correction indication and displaying the current state information of each base station.

In a further preferred aspect of this embodiment, the correction instruction is specifically a base station removal instruction, where the base station removal instruction carries relevant information of a base station that needs to be removed, for example, location information of the base station, and/or a site code, and this is not limited herein. In a scenario corresponding to the preferred embodiment, the monitoring finds that a base station is unavailable or fails, and the user may click the failed base station to send a base station removal instruction, and may also initiate the base station removal instruction in other manners, which is not limited herein.

As shown in fig. 4, a detailed flowchart of step S2 of another preferred method of monitoring a distribution status of base stations according to the first embodiment of the present invention is provided, where the step S2 specifically includes:

step S401, updating the networking relation graph based on the position information of the base station needing to be removed, and obtaining an updated networking relation graph;

specifically, when receiving a base station removal instruction, the base station is removed from the networking relationship diagram according to the related information of the base station, for example, according to the location information of the base station, it should be noted that there may be one or more base stations that need to be removed, which is not limited here. When only one base station needs to be removed, the base station is removed from the networking relation graph, and when more than one base station needs to be removed, the corresponding number of base stations are removed from the networking relation graph to form a new networking relation graph.

Step S402, updating and displaying the state information of each unremoved base station based on the updated networking relational graph;

specifically, after the corresponding base station is removed based on the base station removal instruction, the networking map is updated, the redundancy of each unremoved base station is calculated based on the updated networking map, and the redundancy is calculated by combining the data of each unremoved base station to assemble to form state information, and the specific process of calculating the redundancy of the base station is substantially the same as the specific process corresponding to the step S22.

It should be noted that color identification needs to be performed on each unremoved base station again, and the specific identification process may refer to the foregoing step S23, which is not described herein again.

In another preferable solution of this embodiment, the modification instruction is specifically an instruction to newly establish a base station, and the step S2 is specifically:

acquiring reference information of the newly built base stations based on the indication of the newly built base stations and the current networking relational graph and displaying the current state information of each base station;

furthermore, the instruction can be sent out after a user selects a position on a map, and the instruction of the newly-built base station carries position information selected by the user; the indication can also be that the user directly clicks a button of the newly-built base station, and the indication of the newly-built base station does not carry the position information.

When the indication carries location information, as shown in fig. 5, a detailed flowchart of step S2 of another preferred method of monitoring a distribution status of a base station according to the first embodiment of the present invention is provided, where the step S2 specifically includes:

step S501, updating the networking relation graph based on the position information;

specifically, according to the instruction, a corresponding base station is added to the networking relationship diagram (i.e. a newly-built base station is added), and the networking relationship diagram is updated.

Step S502, acquiring and displaying the state information of the current total base station based on the updated networking relational graph;

specifically, the redundancy of each current base station is calculated based on the updated networking relationship diagram, and then is combined with the data of the corresponding base station to form the state information, and the calculation of the redundancy of the base station is consistent with the specific process of the step S22, which is not described herein again. The status information of the current total base station includes the status information of each base station corresponding to the updated networking relationship diagram (including the status information of the newly-built base station).

It should be noted that, in step S502, the redundancy of the newly added base station is first calculated, the redundancy of each of the other base stations is calculated, the redundancy of the newly added base station is compared with the redundancy of each of the other base stations to obtain comparison information, and then the current state information, i.e., the comparison information, of each base station can be displayed (preferably, displayed on a large screen).

Further, the process of calculating the redundancy of the newly added base station is as follows:

assuming that the current base station does not exist, reconstructing triangles of other base stations, analyzing the influence of the absence of the current base station on the network, and displaying different colors according to different base stations with different redundancy degrees;

the redundancy of the newly added base station is calculated as follows:

the method comprises the steps of taking the newly added base station as a target, namely neglecting the newly added base station, forming other base stations into a triangular structure, marking corresponding colors according to the side length of a triangle where the neglected base station is located (each other base station is seen as a point, and three points are connected to form the triangular structure), obtaining each side length of the triangular structure where the neglected base station is located, and obtaining redundancy data of the triangular structure. When the base station has redundancy, corresponding redundancy is calculated. Or, a corresponding relationship list of the redundancy and the average value of the side lengths is preset, the redundancy corresponding to the base station can be obtained according to the side lengths, and the corresponding redundancy is further obtained from the corresponding relationship list according to the average value of the side lengths of the three sides of the triangular structure as long as the whole side lengths of the triangular structure are marked as green. It should be noted that, the redundancy corresponding to the newly added base station and each other base station may be obtained by referring to the above method, then the redundancy of the newly added base station and each other base station is compared to obtain comparison information (the comparison information may be a name of the base station with the largest redundancy, a name of the base station with the smallest redundancy, and the like), and finally, the state information of each base station is displayed, where the state information includes the redundancy of the corresponding base station, and it should be noted that, when at least one side of a triangle corresponding to a certain base station is displayed as yellow or red, it indicates that the base station is not redundant, and the redundancy corresponding to the base station is zero.

Further, the necessity of the newly added base station may be analyzed according to the comparison information, when the redundancy of the newly added base station is greater than a first preset value, it indicates that the newly added base station is necessary, and when the redundancy is less than a second preset value, it indicates that the necessity of the newly added base station is not strong, and the first preset value and the second preset value may be set according to practical situations, which is not limited herein.

In another variant, the redundancy of the newly added base station is directly calculated based on the updated networking relational graph, then the related information of the newly added base station is displayed for a user to check, after the user confirms OK, the redundancy of other base stations is calculated, then the state information of each base station is combined and finally displayed, if the user' S negative confirmation information is received, a dialog box is popped up to prompt the user to input position information again, and then the step S501 is turned to continue the redundancy calculation of the newly added base station.

In another preferred embodiment of this embodiment, as shown in fig. 6, the step S2 of the another preferred method of monitoring a distribution status of a base station provided in the first embodiment of the present invention is a detailed flowchart of the step S2, where the step S2 specifically includes:

step S601, acquiring the position information of a base station needing to be newly built;

specifically, when the indication of the newly-built base station does not carry the location information, the location information of the newly-built base station needs to be acquired;

in a preferred embodiment of this embodiment, it is required to obtain state information of each base station based on the current networking relationship diagram, where the state information includes corresponding redundancy, the system provides more than one position for reference according to the redundancy of each base station, then uses each provided position as the position of a newly-built base station, calculates the redundancy of the newly-built base station and the base station, compares the redundancy corresponding to each position, and selects the position with the highest redundancy as the position of the newly-built base station.

Step S602, updating the current networking relation graph based on the acquired position information;

specifically, the newly-built base station is set in a position corresponding to the calculated position information in the networking relational graph, and then the networking relational graph is updated;

step S603, acquiring and displaying the state information of the current total base station based on the updated networking relational graph;

specifically, the redundancy of each base station under the current networking relational graph is calculated based on the updated networking relational graph, and then the state information is combined by combining the data (position information, site codes and the like) of the corresponding base stations, and the state information of each base station is displayed.

It should be noted that, in step S603, the redundancy of the newly-built base station may be calculated based on the calculated position information, and then fed back to the user, after the confirmation instruction of the user is obtained, the redundancy of other base stations is calculated, and the state information of each base station is combined and displayed.

Further, when receiving the denial information of the user, the dialog box pops up to prompt the user to input the target redundancy of the newly added base station, and then the step S601 is performed, and the position information of the base station which needs to be newly created is calculated based on the target redundancy, the current state information of each base station and the current networking relational graph.

In another preferred embodiment of this embodiment (see fig. 7), after step S2, the method may further include:

step S3, receiving a correction instruction;

specifically, when the current networking relationship diagram needs to be updated, a correction instruction is sent out.

And step S4, updating the current networking relation graph based on the correction instruction, and acquiring and displaying the current state information of each base station.

Specifically, the current networking relationship diagram is updated according to the correction indication, and the current state information of each base station is acquired and displayed.

In a further preferred embodiment of this embodiment, the modification instruction is an instruction to newly establish a base station, and step S4 specifically includes:

acquiring the position information of the newly-built base station;

specifically, position information of the newly-built base station is obtained, and when the correction instruction carries the position information of the newly-built base station, the position information is directly obtained; when the correction instruction does not carry the position information of the newly-built base station, the system gives more than one recommended position, or a dialog box is popped up to allow the user to input or select the position information of the newly-built base station by himself.

Updating the networking relation graph based on the position information;

specifically, a base station is simulated and established based on the position information, and the current networking relation graph is updated, namely, the newly established base station is added into the networking relation graph, and the networking relation graph is updated;

updating and displaying the state information of the current total base station based on the updated networking relational graph;

specifically, the redundancy of each current base station is calculated based on the updated networking relationship diagram, and then is combined with the data of the corresponding base station to form the state information, and the calculation of the redundancy of the base station is consistent with the specific process of the step S22, which is not described herein again. The status information of the current total base station includes the status information of each base station corresponding to the updated networking relationship diagram (including the status information of the newly-built base station).

In another preferred aspect of this embodiment, the correction instruction is a base station removal instruction, where the base station removal instruction carries information about a base station that needs to be removed, for example, location information of the base station, and/or a site code, which is not limited herein. In a scenario corresponding to the preferred method, it is monitored that a base station is unavailable or fails, and a user may click the failed base station to send a base station removal instruction, and may also initiate the base station removal instruction in other ways, which is not limited here.

The step S4 specifically includes:

updating the networking relation graph based on the position information of the base station needing to be removed to obtain an updated networking relation graph;

specifically, when receiving a base station removal instruction, the base station is removed from the networking relationship diagram according to the related information of the base station, for example, according to the location information of the base station, it should be noted that there may be one or more base stations that need to be removed, which is not limited here. When only one base station needs to be removed, the base station is removed from the networking relation graph, and when more than one base station needs to be removed, the corresponding number of base stations are removed from the networking relation graph to form a new networking relation graph.

Updating and displaying the state information of each unremoved base station based on the updated networking relational graph;

specifically, after the corresponding base station is removed based on the base station removal instruction, the networking map is updated, the redundancy of each unremoved base station is calculated based on the updated networking map, and the redundancy is assembled by combining the data of each unremoved base station to form state information, where the specific process of calculating the redundancy of the base station is substantially the same as the specific process corresponding to the step S22.

In another preferred embodiment of this embodiment, the modification instruction is a base station missing instruction, where the base station missing instruction carries location information of a missing base station, and the step S4 specifically includes:

updating a networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as a current networking relation graph;

specifically, the indication carries the position information of the missing base station and the corresponding code, the corresponding and missing base station is removed from the networking relationship diagram, the networking relationship diagram is updated, and the updated networking relationship diagram is used as the current networking relationship diagram.

Acquiring and displaying the current state information of each base station based on the current networking relational graph;

specifically, a combination structure of a corresponding base station is obtained based on a current networking relational graph and data of the base station;

specifically, a combination structure corresponding to the base station is obtained based on a current networking relationship diagram and data of the base station, the combination structure is a triangular structure formed by three base stations, each corner corresponds to one base station, the corresponding combination structure is obtained according to the position of the base station, and in general, one base station corresponds to more than two triangular structures. The redundancy of the corresponding base station is calculated based on the combined structure, and the calculation process may refer to the aforementioned step S222, which is not described herein again.

In this embodiment, the current state information of each base station is obtained according to the current networking relationship diagram, so as to improve the accuracy of the state information.

Secondly, the current state information of each base station is displayed in real time, the current state of each base station can be visually seen, and the working reliability of the base stations is improved.

In addition, base stations can be added or abnormal base stations can be removed according to actual conditions, and therefore practicability and fault detection efficiency are improved.

Example two:

as shown in fig. 8, a structural diagram of a monitoring terminal for a base station distribution status according to a second embodiment of the present invention is provided, where the terminal includes: receiving unit 1 and the monitoring unit 2 connected with it, wherein:

a receiving unit 1, configured to receive a status indication of a user;

specifically, the user sends a corresponding status indication according to the own requirement, wherein the status indication may be sent by a button or a web page input, or may be sent by a sound or the like, which is not limited herein.

The monitoring unit 2 is used for acquiring and displaying the current state information of each base station based on the state indication and the current networking relation graph;

specifically, a current networking relation graph is obtained according to a state indication of a user, the networking relation graph is preferably a relation structure graph among base stations in the national range, state information of each base station at present is obtained according to the networking relation graph, the state information comprises position information (longitude and latitude) of the base station, a site code and current redundancy, the redundancy is used for representing the construction density of the base station, and when the construction density of the base station exceeds a preset value, the distance of a base line is still within a preset range after one base station is removed.

In this embodiment, the state information of each base station is acquired according to the current networking relationship diagram, so that the accuracy of the state information is improved.

In a preferred aspect of this embodiment, the status indication is specifically a base station status query indication, as shown in fig. 9, which is a specific structural diagram of a monitoring unit 2 in a preferred implementation manner of a monitoring terminal for a base station distribution status provided in a second embodiment of the present invention, where the monitoring unit 2 specifically includes: an acquisition subunit 21, a calculation subunit 22 connected to the acquisition subunit 21, and a presentation subunit 23 connected to the calculation subunit 22, wherein:

an obtaining subunit 21, configured to obtain current total base station data;

specifically, the current total base station data is obtained, where the total base station data includes data of each base station distributed nationwide, and the data includes location information, a station code, and the like corresponding to the base station.

A calculating subunit 22, configured to calculate the redundancy of each base station based on the current networking relationship diagram and the current total base station data;

specifically, a corresponding networking relational graph is obtained according to a networking algorithm, and the redundancy rate of each base station is calculated according to the currently obtained networking relational graph and the total base station data.

A display subunit 23, configured to display status information of each base station;

specifically, after the redundancy of each base station is calculated, the redundancy is combined with the obtained data of each base station to assemble, so as to obtain corresponding status information, and the status information of each base station is displayed in combination, preferably in a list form, or in a text form, on a display screen or in another carrier, which is not limited herein.

In a preferable solution of this embodiment, a redundancy threshold may also be preset, and when the redundancy threshold is exceeded, the corresponding base station needs to be highlighted, for example, highlighted by a color, green indicates that the distances between the current base station and the adjacent base stations are all within the preset range, yellow indicates that the distance between the current base station and the adjacent base stations exceeds the preset range, but the distance difference is within the allowable range, and red indicates that the difference between the distances between the current base station and the adjacent base stations is not within the allowable range, where specific values of the preset range and the allowable range may be set according to actual situations, and this is not limited here. Or the reminding is carried out in a tilted font or other forms, so that the user can visually see the current state of each base station.

In a further preferred embodiment of this embodiment, the calculating subunit 22 is specifically configured to:

acquiring a combination structure of a corresponding base station based on the current networking relational graph and the data of the base station;

specifically, a combination structure corresponding to the base station is obtained based on the current networking relational graph and data of the base station, the combination structure is a triangular structure formed by three base stations, each corner corresponds to one base station, a corresponding combination structure is obtained according to the position of the base station, and under normal conditions, one base station corresponds to more than two triangular structures.

Calculating the redundancy of the corresponding base station based on the combined structure;

specifically, the redundancy of the corresponding base station is calculated according to the triangular structure, and the specific implementation process is as follows:

firstly, neglecting the base station, and reconstructing a triangular structure (the base station is in the triangular structure);

acquiring side length information of the triangular structure, wherein the side length information comprises the side length of each side of the triangular structure;

obtaining redundancy data of the corresponding base station based on the side length information;

further, it is assumed that the base station does not exist (neglecting the base station), a triangle structure is formed by the base stations around the reference again, each side length of the triangle structure where the neglected base station is located is obtained, redundancy data of the triangle structure is obtained, preferably, the redundancy data includes a color corresponding to each side length, when the color of each side length is green, it indicates that the base station is redundant, and when the color of one side length is yellow or red, it indicates that the base station is not redundant. When the base station has redundancy, corresponding redundancy is calculated. Or, a corresponding relation list of the redundancy and the average value of the side lengths is preset, the redundancy corresponding to the base station can be obtained according to the side lengths, and as long as the whole side lengths of the triangular structure are marked as green, the corresponding redundancy is further obtained from the corresponding relation list according to the average value of the side lengths of the three sides of the triangular structure.

It should be noted that, a correspondence table is preset, and the correspondence table includes correspondence between the value of the side length of the triangle structure corresponding to the longitude and latitude and the color, for example: when the current longitude and latitude is (X, Y), the side length of less than 10km is represented by green, 10-15km is represented by yellow, 15-20km is represented by red, and the green represents that the base line corresponding to the side length is qualified.

In a further preferred embodiment of this embodiment, the calculating subunit 22 is further configured to:

receiving a prompt that a base station is absent;

specifically, a base station missing prompt is received, which may be system real-time detection, and if one or more base stations are suddenly found to lose contact, a base station missing prompt is sent, and the prompt carries the position information and the corresponding codes of the missing base stations.

Updating a networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as a current networking relation graph; specifically, when a prompt that a base station is missing is received, the corresponding missing base station is removed from the networking relationship diagram, the networking relationship diagram is updated, and the updated networking relationship diagram is used as the current networking relationship diagram.

In another preferred embodiment of this embodiment, the status indication is specifically a correction indication, and the monitoring unit 2 is specifically configured to: and updating the current networking relation graph based on the correction indication and displaying the current state information of each base station.

In a further preferred aspect of this embodiment, the correction instruction is specifically a base station removal instruction, where the base station removal instruction carries relevant information of a base station that needs to be removed, for example, location information of the base station, and/or a site code, and this is not limited herein. In a scenario corresponding to the preferred embodiment, the monitoring finds that a base station is unavailable or fails, and the user may click the failed base station to send a base station removal instruction, and may also initiate the base station removal instruction in other manners, which is not limited herein.

In a preferred aspect of this embodiment, the status indication is specifically a base station status query indication, as shown in fig. 10, which is a specific structural diagram of a monitoring unit 2 of another preferred embodiment of a monitoring terminal for a base station distribution status provided in a second embodiment of the present invention, where the monitoring unit 2 specifically includes: an update subunit 1001, and a monitor subunit 1002 connected to the update subunit 1001, wherein:

an updating subunit 1001, configured to update the networking relationship map based on the location information of the base station that needs to be removed, and obtain an updated networking relationship map;

specifically, when receiving a base station removal instruction, the base station is removed from the networking relationship diagram according to the related information of the base station, for example, according to the location information of the base station, it should be noted that there may be one or more base stations that need to be removed, which is not limited here. When only one base station needs to be removed, the base station is removed from the networking relation graph, and when more than one base station needs to be removed, the corresponding number of base stations are removed from the networking relation graph to form a new networking relation graph.

A monitoring subunit 1002, configured to update and display state information of each unremoved base station based on the updated networking relationship diagram;

specifically, after the corresponding base station is removed based on the base station removal instruction, the networking map is updated, the redundancy of each unremoved base station is calculated based on the updated networking map, and the redundancy is assembled by combining the data of each unremoved base station to form state information, and the specific process of calculating the redundancy of the base station is substantially the same as the process of calculating the redundancy by the calculating subunit 22.

It should be noted that color identification needs to be performed on each unremoved base station again, and the specific identification process may refer to the identification process of the display subunit 23, which is not described herein again.

In another preferable solution of this embodiment, the modification instruction is specifically an instruction of a newly-built base station, and the monitoring unit 2 is specifically configured to: acquiring reference information of the newly built base stations based on the indication of the newly built base stations and the current networking relational graph and displaying the current state information of each base station;

furthermore, the instruction can be sent out after a user selects a position on a map, and the instruction of the newly-built base station carries the position information selected by the user; the instruction may also be that the user directly clicks a button of the newly-built base station, and the instruction of the newly-built base station does not carry the location information.

When the indication carries location information, as shown in fig. 11, which is a specific structural diagram of a monitoring unit 2 of another preferred embodiment of a monitoring terminal of a base station distribution status provided in a second embodiment of the present invention, the monitoring unit 2 specifically includes: an updating subunit 1101 and an acquiring and presenting subunit 1102 connected to the updating subunit 1101, wherein:

an updating subunit 1101, configured to update the networking relationship map based on location information;

specifically, according to the instruction, a corresponding base station is added to the networking relationship diagram (i.e. a newly-built base station is added), and the networking relationship diagram is updated.

An acquisition and presentation subunit 1102, configured to acquire and present state information of the current total base station based on the updated networking relationship diagram;

specifically, the redundancy of each current base station is calculated based on the updated networking relationship diagram, and then is combined with the data of the corresponding base station to form the state information, and the calculation of the redundancy of the base station is consistent with the specific process of the foregoing step S22, and is not described herein again. The state information of the current total base station includes the state information of each base station corresponding to the updated networking map (including the state information of the newly-built base station).

It should be noted that, the redundancy of the newly added base station is first calculated, the redundancy of each of the other base stations is calculated, the redundancy of the newly added base station is compared with the redundancy of each of the other base stations to obtain comparison information, and then the state information, i.e., the comparison information, of each of the current base stations is displayed (preferably, on a large screen).

Further, the process of calculating the redundancy of the newly added base station is as follows:

assuming that the current base station does not exist, reconstructing triangles of other base stations, analyzing the influence of the absence of the current base station on the network, and displaying different colors according to different base stations with different redundancy degrees;

the redundancy of the newly added base station is calculated as follows:

the method comprises the steps of taking the newly added base station as a target, namely neglecting the newly added base station, forming other base stations into a triangular structure, marking corresponding colors according to the side length of a triangle where the neglected base station is located (each other base station is seen as a point, and three points are connected to form the triangular structure), obtaining each side length of the triangular structure where the neglected base station is located, and obtaining redundancy data of the triangular structure. When the base station has redundancy, corresponding redundancy is calculated. Or, a corresponding relationship list of the redundancy and the average value of the side lengths is preset, the redundancy corresponding to the base station can be obtained according to the side lengths, and the corresponding redundancy is further obtained from the corresponding relationship list according to the average value of the side lengths of the three sides of the triangular structure as long as the whole side lengths of the triangular structure are marked as green. It should be noted that, the redundancy corresponding to the newly added base station and each other base station may be obtained by referring to the above method, then the redundancy of the newly added base station and each other base station is compared to obtain comparison information (the comparison information may be a name of the base station with the largest redundancy, a name of the base station with the smallest redundancy, and the like), and finally, the status information of each base station is displayed, where the status information includes the redundancy of the corresponding base station, and it should be noted that, when at least one side of a triangle corresponding to a certain base station is displayed as yellow or red, it indicates that the base station is not redundant, and the redundancy corresponding to the base station is zero.

Further, the necessity of the newly added base station may be analyzed according to the comparison information, when the redundancy of the newly added base station is greater than a first preset value, it is very necessary for the newly added base station, and when the redundancy is less than a second preset value, it indicates that the necessity of the newly added base station is not strong, and the first preset value and the second preset value may be set according to actual situations, which is not limited herein.

In another variant, the redundancy of the newly added base station is directly calculated based on the updated networking relational graph, then the related information of the newly added base station is displayed for a user to check, after the user confirms OK, the redundancy of other base stations is calculated, then the state information of each base station is combined and finally displayed, if the user' S negative confirmation information is received, a dialog box is popped up to prompt the user to input position information again, and then the step S501 is turned to continue the redundancy calculation of the newly added base station.

When the indication does not carry location information, as shown in fig. 12, it is a specific structure diagram of a monitoring unit 2 of another preferred implementation of a monitoring terminal of a base station distribution state provided in a second embodiment of the present invention, where the monitoring unit 2 specifically includes; a calculating subunit 1201, an updating subunit 1202 connected to the calculating subunit 1201, and an obtaining and displaying subunit 1203 connected to the updating subunit 1202, wherein:

a calculating subunit 1201, configured to obtain location information of a base station that needs to be newly created;

specifically, position information of a newly-built base station needs to be acquired;

in a preferred embodiment of this embodiment, it is required to obtain state information of each base station based on the current networking relationship diagram, where the state information includes corresponding redundancy, the system provides more than one position for reference according to the redundancy of each base station, then uses each provided position as the position of a newly-built base station, calculates the redundancy of the newly-built base station and the base station, compares the redundancy corresponding to each position, and selects the position with the highest redundancy as the position of the newly-built base station.

An updating subunit 1202, configured to update the current networking relationship map based on the obtained location information;

specifically, the newly-built base station is set in a position corresponding to the calculated position information in the networking relational graph, and then the networking relational graph is updated;

an acquiring and displaying subunit 1203, configured to acquire and display state information of the current total base station based on the updated networking relationship diagram;

specifically, the redundancy of each base station under the current networking relational graph is calculated based on the updated networking relational graph, and then the state information is combined with the data (position information, site codes and the like) of the corresponding base stations to form state information, and the state information of each base station is displayed.

It should be noted that the obtaining and displaying subunit 1203 may also calculate the redundancy of the newly-built base station based on the calculated position information, then feed back to the user, after obtaining the confirmation instruction of the user, calculate the redundancy of other base stations, and combine the state information of each base station to display the redundancy.

Further, when receiving the denial information of the user, a pop-up dialog box prompts the user to input the target redundancy of the newly added base station, and then feeds the target redundancy back to the computing subunit 1201, and the position information of the base station which needs to be newly created is computed based on the target redundancy, the current state information of each base station and the current networking relational graph.

In another preferred solution of this embodiment, the receiving unit 1 is further configured to receive a modification instruction;

specifically, when the current networking relationship diagram needs to be updated, a correction instruction is sent out.

The monitoring unit 2 is also adapted to: and updating the current networking relation graph based on the correction instruction, and acquiring and displaying the current state information of each base station.

Specifically, the current networking relationship diagram is updated according to the correction indication, and the current state information of each base station is acquired and displayed.

In a further preferred embodiment of this embodiment, the modification instruction is an instruction to newly establish a base station, and the monitoring unit 2 is specifically configured to:

acquiring the position information of the newly-built base station;

specifically, the position information of the newly-built base station is obtained, and when the correction instruction carries the position information of the newly-built base station, the position information is directly obtained; when the correction instruction does not carry the position information of the newly-built base station, the system gives more than one recommended position, or a dialog box is popped up to allow the user to input or select the position information of the newly-built base station.

Updating the networking relationship diagram based on the position information;

specifically, a base station is simulated and established based on the position information, and the current networking relation graph is updated, namely, the newly established base station is added into the networking relation graph, and the networking relation graph is updated;

updating and displaying the state information of the current total base station based on the updated networking relation graph;

specifically, the redundancy of each current base station is calculated based on the updated networking relationship diagram, and then is combined with the data of the corresponding base station to form the state information, and the calculation of the redundancy of the base station is consistent with the specific process of the step S22, which is not described herein again. The status information of the current total base station includes the status information of each base station corresponding to the updated networking relationship diagram (including the status information of the newly-built base station).

In another preferred aspect of this embodiment, the correction instruction is a base station removal instruction, where the base station removal instruction carries information about a base station that needs to be removed, for example, location information of the base station, and/or a site code, which is not limited herein. In a scenario corresponding to the preferred method, it is monitored that a base station is unavailable or fails, and a user may click the failed base station to send a base station removal instruction, and may also initiate the base station removal instruction in other ways, which is not limited here.

The monitoring unit 2 is specifically configured to:

updating the networking relation graph based on the position information of the base station needing to be removed to obtain an updated networking relation graph;

specifically, when receiving a base station removal instruction, the base station is removed from the networking relationship diagram according to the related information of the base station, for example, according to the location information of the base station, it should be noted that there may be one or more base stations that need to be removed, which is not limited here. And when more than one base station is needed, removing the base stations with the corresponding number from the networking relational graph to form a new networking relational graph.

Updating and displaying the state information of each unremoved base station based on the updated networking relation graph;

specifically, after the corresponding base station is removed based on the base station removal indication, the networking relational graph is updated, the redundancy rate of each unremoved base station is calculated based on the updated networking relational graph, and the redundancy rate is assembled by combining the data of each unremoved base station to form state information.

In another preferred aspect of this embodiment, the modification instruction is a base station missing instruction, where the base station missing instruction carries location information of a missing base station, and the monitoring unit 2 is specifically configured to:

updating a networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as a current networking relation graph;

specifically, the indication carries the position information of the missing base station and the corresponding code, the corresponding missing base station is removed from the networking relationship diagram, the networking relationship diagram is updated, and the updated networking relationship diagram is used as the current networking relationship diagram.

Acquiring and displaying the current state information of each base station based on the current networking relation graph;

specifically, a combination structure of a corresponding base station is obtained based on a current networking relation diagram and data of the base station;

specifically, a combination structure corresponding to the base station is obtained based on a current networking relationship diagram and data of the base station, the combination structure is a triangular structure formed by three base stations, each corner corresponds to one base station, the corresponding combination structure is obtained according to the position of the base station, and in general, one base station corresponds to more than two triangular structures.

In this embodiment, the current state information of each base station is obtained according to the current networking relationship diagram, so that the accuracy of the state information is improved.

Secondly, the current state information of each base station is displayed in real time, the current state of each base station can be visually seen, and the working reliability of the base stations is improved.

Moreover, base stations can be added or removed according to actual conditions, so that the practicability is improved, and the fault detection efficiency is improved.

Example three:

fig. 13 shows a structural diagram of a service terminal according to a third embodiment of the present invention, where the service terminal includes: a memory (memory)131, a processor (processor)132, a communication Interface (Communications Interface)133 and a bus 134, wherein the processor 132, the memory 131 and the communication Interface 133 complete mutual communication through the bus 134.

A memory 131 for storing various data;

specifically, the memory 131 is used for storing various data, such as data in communication, received data, and the like, and is not limited herein, and the memory further includes a plurality of computer programs.

A communication interface 133 for information transmission between communication devices of the service terminal;

the processor 132 is configured to call various computer programs in the memory 131 to execute a method for monitoring a distribution status of a base station provided in the first embodiment, for example:

receiving a status indication of a user;

and acquiring and displaying the current state information of each base station based on the state indication and the current networking relational graph, wherein the state information comprises the redundancy of the corresponding base station.

In this embodiment, the current state information of each base station is obtained according to the current networking relationship diagram, so as to improve the accuracy of the state information.

The present invention also provides a memory, where the memory stores a plurality of computer programs, and the computer programs are called by the processor to execute the method for monitoring the distribution status of the base station according to the first embodiment.

In the invention, the current state information of each base station is obtained according to the current networking relational graph, and the accuracy of the state information is improved.

Secondly, the current state information of each base station is displayed in real time, the current state of each base station can be visually seen, and the working reliability of the base stations is improved.

Moreover, base stations can be added or removed according to actual conditions, so that the practicability is improved, and the fault detection efficiency is improved.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation.

Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention. The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (12)

1. A method for monitoring distribution status of base station is characterized in that,

the method comprises the following steps:

receiving a status indication of a user;

acquiring and displaying the current state information of each base station based on the state indication and the current networking relational graph, wherein the state information comprises the redundancy of the corresponding base station, the current total base station data is acquired based on the reference state query indication, the total base station data comprises the data of each base station, and the data of each base station comprises the corresponding position information; respectively calculating the redundancy of each base station based on the current networking relational graph and the current total base station data, wherein the combined structure of the corresponding base station is obtained based on the current networking relational graph and the data of the base station; calculating the redundancy of the corresponding base station based on the combined structure, wherein the combined structure is a triangular structure, acquiring corresponding length information based on the triangular structure, and acquiring redundancy data of the corresponding base station based on the length information; the redundancy data comprises a color corresponding to each side length of the triangular structure, when the color of each side length is green, the base station is represented to have redundancy, when the color of one side length is yellow or red, the base station is represented to be not redundant, when the base station has redundancy, the corresponding redundancy is calculated, or a corresponding relation list of the redundancy and a side length average value is preset, the redundancy corresponding to the base station can be obtained according to the side length, and if the whole side length of the triangular structure is marked as green, the corresponding redundancy is obtained from the corresponding relation list according to the side length average value of three sides of the triangular structure; and a corresponding relation table is preset, wherein the corresponding relation table comprises the correspondence between the side length value of the triangular structure corresponding to the longitude and the latitude and the color.

2. The monitoring method according to claim 1,

before obtaining the composite structure of the corresponding base station based on the current networking relationship diagram and the data of the base station, the method further comprises the following steps:

receiving a prompt of missing base stations, wherein the prompt carries position information of the missing base stations;

and updating the networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as the current networking relation graph.

3. The monitoring method according to claim 1,

after acquiring and displaying the current state information of each base station based on the state indication and the current networking relationship diagram, the method further comprises the following steps:

receiving a correction instruction;

and updating the current networking relation graph based on the correction indication, and acquiring and displaying the current state information of each base station.

4. The monitoring method according to claim 3,

the step of updating the current networking relation diagram based on the correction instruction, and the step of acquiring and displaying the current state information of each base station comprises the following steps:

acquiring the position information of the newly-built base station;

updating the networking relationship diagram based on the position information;

and updating and displaying the state information of the current total base station based on the updated networking relation diagram, wherein the state information of the total base station comprises the state information of the newly-built base station.

5. The monitoring method according to claim 3,

the modifying indication is a base station removing indication, the removing indication carries position information of a base station needing to be removed, and updating the current networking relation diagram and displaying the current state information of each base station based on the modifying indication comprises the following steps:

updating the networking relation graph based on the position information of the base station needing to be removed to obtain an updated networking relation graph;

updating and showing state information for each non-removed base station based on the updated networking relationship map.

6. The monitoring method according to claim 3,

the correcting indication is a base station missing prompt, the reference missing prompt carries the position information of the missing base stations, and updating the current networking relational graph and displaying the current state information of each base station based on the correcting indication comprises the following steps:

updating the networking relation graph based on the missing position information of the base station, and taking the updated networking relation graph as the current networking relation graph;

and acquiring and displaying the current state information of each base station based on the current networking relation diagram.

7. The monitoring method according to claim 1,

the state indication is a base station removal indication, the removal indication carries position information of a base station needing to be removed, and the updating of the current networking relation diagram and the displaying of the current state information of each base station based on the correction indication comprises the following steps:

updating the networking relation graph based on the position information of the base station needing to be removed to obtain an updated networking relation graph;

updating and showing state information for each non-removed base station based on the updated networking relationship map.

8. The monitoring method according to claim 1,

the state indication is an indication of a newly-built base station, the indication of the newly-built base station carries position information of the newly-built base station, and the obtaining and displaying of the current state information of each base station based on the state indication and the current networking relational graph comprises the following steps:

updating the networking relationship diagram based on the position information;

and updating and displaying the state information of the current total base station based on the updated networking relation diagram, wherein the state information of the total base station comprises the state information of the newly-built base station.

9. The monitoring method according to claim 1,

the state indication is an indication of a newly-built base station, the indication of the newly-built base station does not carry position information of the newly-built base station, and the obtaining and displaying of the current state information of each base station based on the state indication and the current networking relation diagram comprises the following steps:

acquiring position information of a base station to be newly built;

updating the current networking relation graph based on the acquired position information;

and acquiring and displaying the state information of the current total base station based on the updated networking relation diagram, wherein the state information of the total base station comprises the state information of the newly-built base station.

10. A monitoring terminal for distribution status of base station is characterized in that,

the method comprises the following steps:

a receiving unit, configured to receive a status indication of a user;

the monitoring unit is used for acquiring and displaying the current state information of each base station based on the state indication and the current networking relational graph, wherein the state information comprises the redundancy of the corresponding base station, the current total base station data is acquired based on the reference state query indication, the total base station data comprises the data of each base station, and the data of each base station comprises the corresponding position information; respectively calculating the redundancy of each base station based on the current networking relational graph and the current total base station data, wherein the combined structure of the corresponding base station is obtained based on the current networking relational graph and the data of the base station; calculating the redundancy of the corresponding base station based on the combined structure, wherein the combined structure is a triangular structure, acquiring corresponding length information based on the triangular structure, and acquiring redundancy data of the corresponding base station based on the length information; the redundancy data comprise colors corresponding to each side length of the triangular structure, when the color of each side length is green, the base station is indicated to have redundancy, when the color of one side length is yellow or red, the base station is indicated not to be redundant, when the base station has redundancy, the corresponding redundancy is calculated, or a corresponding relation list of the redundancy and an average value of the side lengths is preset, the redundancy corresponding to the base station can be obtained according to the side lengths, and if the whole side length of the triangular structure is marked as green, the corresponding redundancy is obtained from the corresponding relation list according to the average value of the side lengths of three sides of the triangular structure; and a corresponding relation table is preset, wherein the corresponding relation table comprises the correspondence between the side length value of the triangular structure corresponding to the longitude and the latitude and the color.

11. A memory storing a computer program, the memory characterized in that,

the computer program is executed by a processor for:

acquiring current total base station data, wherein the total base station data comprises data of each base station, and the data of each base station comprises corresponding position information;

respectively calculating the redundancy of each base station based on a current networking relational graph and the current total base station data, wherein the current total base station data is obtained based on a reference state query indication, the total base station data comprises the data of each base station, and the data of each base station comprises corresponding position information; respectively calculating the redundancy of each base station based on the current networking relational graph and the current total base station data, wherein the combined structure of the corresponding base station is obtained based on the current networking relational graph and the data of the base station; calculating the redundancy of the corresponding base station based on the combined structure, wherein the combined structure is a triangular structure, acquiring corresponding length information based on the triangular structure, and acquiring redundancy data of the corresponding base station based on the length information; the redundancy data comprise colors corresponding to each side length of the triangular structure, when the color of each side length is green, the base station is indicated to have redundancy, when the color of one side length is yellow or red, the base station is indicated not to be redundant, when the base station has redundancy, the corresponding redundancy is calculated, or a corresponding relation list of the redundancy and an average value of the side lengths is preset, the redundancy corresponding to the base station can be obtained according to the side lengths, and if the whole side length of the triangular structure is marked as green, the corresponding redundancy is obtained from the corresponding relation list according to the average value of the side lengths of three sides of the triangular structure; a corresponding relation table is preset, and the corresponding relation table comprises the correspondence between the side length value of the triangular structure corresponding to the longitude and the latitude and the color;

and displaying the state information of each base station, wherein the state information comprises the redundancy of the corresponding base station.

12. A service terminal comprising a memory, a processor and a computer program stored in said memory and executable on said processor,

the processor when executing the computer program realizes the steps of the method for monitoring the distribution status of base stations according to any one of claims 1 to 9.

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