CN112616150A - Communication equipment management system based on cloud computing - Google Patents

Abstract

The invention discloses a communication equipment management system based on cloud computing, which is used for solving the problem that how to analyze a sector of a base station to obtain a sector management value, and the problem that the sector of the base station is not used by a user to cause resource waste is solved by reasonably closing the sector of the base station; the system comprises a data acquisition module, a base station management module, a server, a registration and login module and a maintenance and distribution module; the base station management system comprises a data acquisition module, a server and a base station management module, wherein the data acquisition module is used for acquiring base station information of a base station and sending the base station information to the server; by reasonably closing the base station sector, the problem that the base station sector is not used by a user and causes resource waste is avoided.

Description

Communication equipment management system based on cloud computing

Technical Field

The invention relates to the technical field of base station equipment management, in particular to a communication equipment management system based on cloud computing.

Background

The communication equipment comprises a macro base station installed outdoors, and the macro base station, namely a public mobile communication base station, is an interface device for accessing the mobile equipment to the internet and is a form of a radio station, namely a radio transceiver station for carrying out information transmission between the mobile equipment and a mobile telephone terminal through a mobile communication switching center in a certain radio coverage area. The construction of mobile communication base stations is an important part of the investment of mobile communication operators.

The existing base station sector is always in an open state, so that resource waste is caused when the base station sector is not used by a user.

Disclosure of Invention

The invention aims to provide a communication equipment management system based on cloud computing in order to solve the problems that how to analyze the sector of a base station to obtain a sector management value and the sector of the base station is reasonably closed, so that the problem that the sector of the base station is not used by users and the resource is wasted is solved; the method comprises the steps of combining the number of mobile phone terminals accessed by a sector of a base station, uploading total rate and downloading total rate parameters, obtaining a sector management value of the sector by utilizing a formula, managing the base station through the sector management value, and closing the sector by a base station management module when the sector management value is smaller than a set threshold value; by reasonably closing the base station sector, the problem that the base station sector is not used by a user and causes resource waste is avoided.

The purpose of the invention can be realized by the following technical scheme: a communication equipment management system based on cloud computing comprises a data acquisition module, a base station management module, a server, a registration login module and a maintenance distribution module;

the data acquisition module is used for acquiring base station information of the base station and sending the base station information to the server, wherein the base station information comprises the position of the base station, the sector of the base station, the direction and the power of the sector and connection data corresponding to the sector of the base station; the connection data comprises the number of mobile phone terminals accessed to the sector and the uploading rate and the downloading rate of the mobile phone terminals;

the base station management module is used for acquiring base station information and analyzing and managing the base station information, and comprises the following specific steps:

the method comprises the following steps: marking the base station as Rk, k ═ 1,2, … …, n; n is a positive integer, and the sector corresponding to the base station is marked as Rki, i is 1,2, … …, 6;

step two: marking the number of mobile phone terminals accessed by the sector as M_Rki(ii) a Summing the uploading rates corresponding to all the mobile phone terminals accessed to the sector to obtain the total uploading rate which is marked as K1_Rki(ii) a Summing the download rates corresponding to all the mobile phone terminals accessing the sector to obtain a total download rate, and marking the total download rate as K2_Rki；

Step three: carrying out dequantization processing on the number of mobile phone terminals accessed by the sector, the total uploading rate and the total downloading rate and taking the numerical values of the dequantization processing and the total uploading rate and the total downloading rate;

step four: using formulas

Obtaining a sector tube value G of the obtained sector_Rki(ii) a B1, b2 and b3 are all preset proportionality coefficients, and lambda is a correction coefficient and takes the value of 0.964;

step five: when the fan tube value is smaller than the set threshold value, the base station management module closes the sector; starting timing at the same time, and when the timing duration is equal to a set threshold, opening the sector by the base station management module and simultaneously executing the second step and the fourth step;

step six: when the timing duration is less than a set threshold, the mobile phone terminal sends a sector opening instruction and a current position to the base station management module, the base station management module matches the current position with base station positions corresponding to all closed sectors after receiving the sector opening instruction and the current position to obtain corresponding closed sectors, and then the base station management module opens the corresponding closed sectors;

the registration login module is used for the maintenance personnel to submit registration information for registration and send the registration information which is successfully registered to the server for storage, and meanwhile, the server marks the time when the registration information is received as the registration time of the maintenance personnel; the registration information comprises the name, the mobile phone number, the time of entry, the age and the academic calendar of the maintainer; and the maintenance distribution module is used for distributing the fault base station to the corresponding selected personnel for maintenance.

Preferably, the specific allocation steps of the maintenance allocation module are as follows:

s1: the maintenance and distribution module sends a position acquisition instruction to a mobile phone terminal of a maintainer, the maintainer sends a receiving instruction and a current position to the maintenance and distribution module through the mobile phone terminal within a preset time range, and the maintenance and distribution module marks the maintainer sending the receiving instruction as a primary selection person;

s2: calculating the distance difference between the current position of the primary selection personnel and the position of the fault base station to obtain the base station distance and marking the distance as H1;

s3: calculating the time difference between the time of entry of the primary selected person and the current time of the system to obtain the time of entry of the primary selected person, and marking the time as H2;

s4: the age of the primary candidate is labeled H3;

s5: the age, the working time and the base station distance of the primary selected personnel are subjected to dequantization treatment and numerical values are obtained, and a formula is utilized

Obtaining a dimensional value HZ of the primary selection personnel; wherein d1, d2, d4 and d5 are all preset proportionality coefficients; h4 is the base value of the selected person;

s6: selecting the primary selected person with the largest dimension value as a selected person; and sending the position of the fault base station to the mobile phone terminal of the selected person.

Preferably, the system further comprises a maintenance calculation module, wherein the maintenance calculation module is used for calculating the base value of the selected person, and the specific calculation steps are as follows:

SS 1: after receiving the position of the fault base station, a selected person reaches the fault base station to be maintained, the fault base station is marked as a maintained base station, and after the selected person completes maintenance of the fault base station, a maintenance completion instruction is sent to the maintenance calculation module;

SS 2: the maintenance calculation module marks the time when the maintenance completion instruction is received as the timing time of the maintained base station; acquiring the total number of the repaired base stations of the selected personnel and marking as H5;

SS 3: counting the timing time of the maintained base station of the selected personnel, and calculating the time difference between the timing time of the maintained base station and the current time of the system to obtain the maintenance duration when the maintained base station has no fault between the timing time of the maintained base station and the current time of the system; when the maintained base station fails between the timing time of the maintained base station and the current time of the system, calculating the time difference between the timing time of the maintained base station and the failure time of the maintained base station to obtain the maintenance duration;

SS 4: summing all maintenance duration of the selected personnel, averaging to obtain a maintenance average of the selected personnel and marking as H6;

SS 5: carrying out dequantization processing on the maintained average value and the total number of the maintained base stations, and taking the numerical value of the dequantized average value and the total number of the maintained base stations, and obtaining a base value H4 of the selected person by using a formula H4-H5 × d3+ H6 × d6, wherein d3 and d6 are preset proportionality coefficients;

SS 6: and the maintenance calculation module sends the base value of the selected personnel to the server for storage.

Preferably, the system further comprises a base station inspection module, wherein the base station inspection module is used for a network optimization engineer to perform daily inspection on the base station and send the position of the base station with problems to the base station inspection module through a mobile phone terminal, the base station inspection module marks the base station with problems as a fault base station after receiving the position of the base station with problems, and the base station inspection module sends the fault base station to the maintenance distribution module through a server.

Preferably, the system further comprises a base station notification module, wherein the base station notification module is used for a network optimization engineer to perform base station notification inspection, and specifically comprises: a network optimization engineer sends a base station and a base station polling path to be polled to a base station notification module, and the base station notification module analyzes the base station polling path after receiving the base station and the base station polling path to obtain an enterprise through which the base station polling path passes and marks the enterprise as a notification enterprise; and the base station notification module sends the information of the network optimization engineer to a responsible mobile phone terminal notifying the corresponding entrance guard of the enterprise.

Compared with the prior art, the invention has the beneficial effects that:

1. the data acquisition module acquires base station information of a base station and sends the base station information to a server, the base station management module acquires the base station information and analyzes and manages the base station information, and the number, the uploading total rate and the downloading total rate of mobile phone terminals accessed to a sector are subjected to dequantization processing and the numerical values of the mobile phone terminals are obtained; obtaining a fan tube value of the sector by using a formula; when the fan tube value is smaller than the set threshold value, the base station management module closes the sector; starting timing at the same time, and when the timing duration is equal to a set threshold, opening the sector by the base station management module and simultaneously executing the second step and the fourth step; when the timing duration is less than a set threshold, the mobile phone terminal sends a sector opening instruction and a current position to the base station management module, the base station management module matches the current position with base station positions corresponding to all closed sectors after receiving the sector opening instruction and the current position to obtain corresponding closed sectors, and then the base station management module opens the corresponding closed sectors; analyzing base station information of a base station, combining the number of mobile phone terminals accessed by a base station sector, uploading total rate and downloading total rate parameters, obtaining a sector management value of the sector by using a formula, managing the base station through the sector management value, and closing the sector by a base station management module when the sector management value is smaller than a set threshold value; by reasonably closing the base station sector, the problem that the base station sector is not used by a user to cause resource waste is avoided;

2. the maintenance and distribution module distributes the fault base station to the corresponding selected personnel for maintenance, the maintenance and distribution module sends a position acquisition instruction to a mobile phone terminal of the maintenance personnel, the maintenance personnel send a receiving instruction and the current position to the maintenance and distribution module through the mobile phone terminal within a preset time range, and the maintenance and distribution module marks the maintenance personnel sending the receiving instruction as the primary selected personnel; calculating the distance difference between the current position of the primary-selected person and the position of the fault base station to obtain the base station distance, calculating the time difference between the working time of the primary-selected person and the current system time to obtain the working time of the primary-selected person, carrying out dequantization processing on the age, the working time and the base station distance of the primary-selected person and taking the numerical value of the age, the working time and the base station distance of the primary-selected person, and obtaining the dimension value HZ of the primary-selected person by using a formula; selecting the primary selected person with the largest dimension value as a selected person; the position of the fault base station is sent to a mobile phone terminal of a selected person; the base station space, the working time, the age and the base value of the maintainer are analyzed to obtain the maintainer dimension value, and the corresponding maintainer is reasonably selected to maintain the base station through the dimension value, so that the base station is reasonably maintained.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a communication device management system based on cloud computing includes a data acquisition module, a base station management module, a server, a registration module, a maintenance distribution module, a maintenance calculation module, a base station polling module, and a base station notification module;

the data acquisition module is used for acquiring base station information of the base station and sending the base station information to the server, wherein the base station information comprises the position of the base station, the sector of the base station, the direction and the power of the sector and connection data corresponding to the sector of the base station; the connection data comprises the number of mobile phone terminals accessed to the sector and the uploading rate and the downloading rate of the mobile phone terminals; the base station is an outdoor macro base station;

the base station management module is used for acquiring base station information and analyzing and managing the base station information, and comprises the following specific steps:

the method comprises the following steps: marking the base station as Rk, k ═ 1,2, … …, n; n is a positive integer, and the sector corresponding to the base station is marked as Rki, i is 1,2, … …, 6;

step two: marking the number of mobile phone terminals accessed by the sector as M_Rki(ii) a Summing the uploading rates corresponding to all the mobile phone terminals accessed to the sector to obtain the total uploading rate which is marked as K1_Rki(ii) a Summing the download rates corresponding to all the mobile phone terminals accessing the sector to obtain a total download rate, and marking the total download rate as K2_Rki；

Step three: carrying out dequantization processing on the number of mobile phone terminals accessed by the sector, the total uploading rate and the total downloading rate and taking the numerical values of the dequantization processing and the total uploading rate and the total downloading rate;

step four: using formulas

Obtaining a sector tube value G of the obtained sector_Rki(ii) a B1, b2 and b3 are all preset proportionality coefficients, and lambda is a correction coefficient and takes the value of 0.964;

step five: when the fan tube value is smaller than the set threshold value, the base station management module closes the sector; starting timing at the same time, and when the timing duration is equal to a set threshold, opening the sector by the base station management module and simultaneously executing the second step and the fourth step;

step six: when the timing duration is less than a set threshold, the mobile phone terminal sends a sector opening instruction and a current position to the base station management module, the base station management module matches the current position with base station positions corresponding to all closed sectors after receiving the sector opening instruction and the current position to obtain corresponding closed sectors, and then the base station management module opens the corresponding closed sectors;

the registration login module is used for the maintainer to submit registration information for registration and send the registration information which is successfully registered to the server for storage, and meanwhile, the server marks the time when the registration information is received as the registration time of the maintainer; the registration information comprises the name, the mobile phone number, the time of entry, the age and the academic calendar of the maintainer; and the maintenance distribution module is used for distributing the fault base station to the corresponding selected personnel for maintenance.

The specific allocation steps of the maintenance allocation module are as follows:

s1: the maintenance and distribution module sends a position acquisition instruction to a mobile phone terminal of a maintainer, the maintainer sends a receiving instruction and a current position to the maintenance and distribution module through the mobile phone terminal within a preset time range, and the maintenance and distribution module marks the maintainer sending the receiving instruction as a primary selection person;

s2: calculating the distance difference between the current position of the primary selection personnel and the position of the fault base station to obtain the base station distance and marking the distance as H1;

s3: calculating the time difference between the time of entry of the primary selected person and the current time of the system to obtain the time of entry of the primary selected person, and marking the time as H2;

s4: the age of the primary candidate is labeled H3;

s5: the age, the working time and the base station distance of the primary selected personnel are subjected to dequantization treatment and numerical values are obtained, and a formula is utilized

Obtaining a dimensional value HZ of the primary selection personnel; wherein d1, d2, d4 and d5 are all preset proportionality coefficients; h4 is the base value of the selected person;

s6: selecting the primary selected person with the largest dimension value as a selected person; and sending the position of the fault base station to the mobile phone terminal of the selected person.

The maintenance calculation module is used for calculating the base value of the selected personnel, and the specific calculation steps are as follows:

SS 1: after receiving the position of the fault base station, a selected person reaches the fault base station to be maintained, the fault base station is marked as a maintained base station, and after the selected person completes maintenance of the fault base station, a maintenance completion instruction is sent to the maintenance calculation module;

SS 2: the maintenance calculation module marks the time when the maintenance completion instruction is received as the timing time of the maintained base station; acquiring the total number of the repaired base stations of the selected personnel and marking as H5;

SS 3: counting the timing time of the maintained base station of the selected personnel, and calculating the time difference between the timing time of the maintained base station and the current time of the system to obtain the maintenance duration when the maintained base station has no fault between the timing time of the maintained base station and the current time of the system; when the maintained base station fails between the timing time of the maintained base station and the current time of the system, calculating the time difference between the timing time of the maintained base station and the failure time of the maintained base station to obtain the maintenance duration;

SS 4: summing all maintenance duration of the selected personnel, averaging to obtain a maintenance average of the selected personnel and marking as H6;

SS 5: carrying out dequantization processing on the maintained average value and the total number of the maintained base stations, and taking the numerical value of the dequantized average value and the total number of the maintained base stations, and obtaining a base value H4 of the selected person by using a formula H4-H5 × d3+ H6 × d6, wherein d3 and d6 are preset proportionality coefficients;

SS 6: and the maintenance calculation module sends the base value of the selected personnel to the server for storage.

The base station inspection module is used for a network optimization engineer to perform daily inspection on the base station and sends the position of the base station with problems to the base station inspection module through the mobile phone terminal, the base station inspection module marks the base station as a fault base station after receiving the position of the base station with problems, and the base station inspection module sends the fault base station to the maintenance distribution module through the server.

The base station notification module is used for a network optimization engineer to perform base station notification inspection, and specifically comprises the following steps: a network optimization engineer sends a base station and a base station polling path to be polled to a base station notification module, and the base station notification module analyzes the base station polling path after receiving the base station and the base station polling path to obtain an enterprise through which the base station polling path passes and marks the enterprise as a notification enterprise; the base station notification module sends the information of the network optimization engineer to a responsible mobile phone terminal notifying the corresponding entrance guard of the enterprise;

the server also comprises a data storage unit, wherein the data storage unit is used for storing the information of the network optimization engineer and the phone numbers of the responsible persons of the enterprises and the guards corresponding to the enterprises and covered by the base station correspondingly;

the above formulas are obtained by collecting a large amount of data and performing software simulation, and the coefficients in the formulas are set by those skilled in the art according to actual conditions.

When the mobile phone terminal access management system is used, the data acquisition module is used for acquiring base station information of a base station and sending the base station information to the server, the base station management module acquires the base station information and analyzes and manages the base station information, and the mobile phone terminal number, the total uploading rate and the total downloading rate of sector access are subjected to dequantization processing and numerical values are obtained; using formulas

Obtaining a sector tube value G of the obtained sector_Rki(ii) a When the fan tube value is smaller than the set threshold value, the base station management module closes the sector; starting timing at the same time, and when the timing duration is equal to a set threshold, opening the sector by the base station management module and simultaneously executing the second step and the fourth step; when the timing duration is less than a set threshold, the mobile phone terminal sends a sector opening instruction and a current position to the base station management module, the base station management module matches the current position with base station positions corresponding to all closed sectors after receiving the sector opening instruction and the current position to obtain corresponding closed sectors, and then the base station management module opens the corresponding closed sectors; analyzing base station information of a base station, combining the number of mobile phone terminals accessed by a base station sector, uploading total rate and downloading total rate parameters, obtaining a sector management value of the sector by using a formula, managing the base station through the sector management value, and closing the sector by a base station management module when the sector management value is smaller than a set threshold value; by reasonably closing the base station sector, the problem that the base station sector is not used by a user to cause resource waste is avoided; maintenance allocation module for use in allocatingThe method comprises the steps that base stations are distributed to corresponding selected persons for maintenance, a maintenance distribution module sends position acquisition instructions to mobile phone terminals of the maintenance persons, the maintenance persons send receiving instructions and current positions to the maintenance distribution module through the mobile phone terminals within a preset time range, and the maintenance distribution module marks the maintenance persons sending the receiving instructions as primary selection persons; calculating the distance difference between the current position of the primary election personnel and the position of the fault base station to obtain the base station distance, calculating the time difference between the time of entry of the primary election personnel and the current time of the system to obtain the time of entry of the primary election personnel, dequantizing the age, the time of entry and the base station distance of the primary election personnel and taking the numerical values of the age, the time of entry and the base station distance of the primary election personnel, and utilizing a formula

Obtaining a dimensional value HZ of the primary selection personnel; selecting the primary selected person with the largest dimension value as a selected person; the position of the fault base station is sent to a mobile phone terminal of a selected person; the base station space, the working time, the age and the base value of the maintainer are analyzed to obtain the maintainer dimension value, and the corresponding maintainer is reasonably selected to maintain the base station through the dimension value, so that the base station is reasonably maintained.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. A communication equipment management system based on cloud computing is characterized by comprising a data acquisition module, a base station management module, a server, a registration and login module and a maintenance and distribution module;

the data acquisition module is used for acquiring base station information of the base station and sending the base station information to the server, wherein the base station information comprises the position of the base station, the sector of the base station, the direction and the power of the sector and connection data corresponding to the sector of the base station; the connection data comprises the number of mobile phone terminals accessed to the sector and the uploading rate and the downloading rate of the mobile phone terminals;

the base station management module is used for acquiring base station information and analyzing and managing the base station information, and comprises the following specific steps:

the method comprises the following steps: marking the base station as Rk, k ═ 1,2, … …, n; n is a positive integer, and the sector corresponding to the base station is marked as Rki, i is 1,2, … …, 6;

step two: marking the number of mobile phone terminals accessed by the sector as M_Rki(ii) a Summing the uploading rates corresponding to all the mobile phone terminals accessed to the sector to obtain the total uploading rate which is marked as K1_Rki(ii) a Summing the download rates corresponding to all the mobile phone terminals accessing the sector to obtain a total download rate, and marking the total download rate as K2_Rki；

Step three: carrying out dequantization processing on the number of mobile phone terminals accessed by the sector, the total uploading rate and the total downloading rate and taking the numerical values of the dequantization processing and the total uploading rate and the total downloading rate;

step four: using formulas

Obtaining a sector tube value G of the obtained sector_Rki(ii) a B1, b2 and b3 are all preset proportionality coefficients, and lambda is a correction coefficient and takes the value of 0.964;

step five: when the fan tube value is smaller than the set threshold value, the base station management module closes the sector; starting timing at the same time, and when the timing duration is equal to a set threshold, opening the sector by the base station management module and simultaneously executing the second step and the fourth step;

step six: when the timing duration is less than a set threshold, the mobile phone terminal sends a sector opening instruction and a current position to the base station management module, the base station management module matches the current position with base station positions corresponding to all closed sectors after receiving the sector opening instruction and the current position to obtain corresponding closed sectors, and then the base station management module opens the corresponding closed sectors;

the registration login module is used for the maintenance personnel to submit registration information for registration and send the registration information which is successfully registered to the server for storage, and meanwhile, the server marks the time when the registration information is received as the registration time of the maintenance personnel; the registration information comprises the name, the mobile phone number, the time of entry, the age and the academic calendar of the maintainer; and the maintenance distribution module is used for distributing the fault base station to the corresponding selected personnel for maintenance.

2. The cloud-computing-based communication device management system according to claim 1, wherein the specific allocation steps of the maintenance allocation module are as follows:

s1: the maintenance and distribution module sends a position acquisition instruction to a mobile phone terminal of a maintainer, the maintainer sends a receiving instruction and a current position to the maintenance and distribution module through the mobile phone terminal within a preset time range, and the maintenance and distribution module marks the maintainer sending the receiving instruction as a primary selection person;

s2: calculating the distance difference between the current position of the primary selection personnel and the position of the fault base station to obtain the base station distance and marking the distance as H1;

s3: calculating the time difference between the time of entry of the primary selected person and the current time of the system to obtain the time of entry of the primary selected person, and marking the time as H2;

s4: the age of the primary candidate is labeled H3;

s5: the age, the working time and the base station distance of the primary selected personnel are subjected to dequantization treatment and numerical values are obtained, and a formula is utilized

Obtaining a dimensional value HZ of the primary selection personnel; wherein d1, d2, d4 and d5 are all preset proportionality coefficients; h4 is the base value of the selected person;

s6: selecting the primary selected person with the largest dimension value as a selected person; and sending the position of the fault base station to the mobile phone terminal of the selected person.

3. The cloud-computing-based communication device management system according to claim 2, further comprising a maintenance calculation module, wherein the maintenance calculation module is configured to calculate a base value of a selected person, and the specific calculation steps are as follows:

SS 1: after receiving the position of the fault base station, a selected person reaches the fault base station to be maintained, the fault base station is marked as a maintained base station, and after the selected person completes maintenance of the fault base station, a maintenance completion instruction is sent to the maintenance calculation module;

SS 2: the maintenance calculation module marks the time when the maintenance completion instruction is received as the timing time of the maintained base station; acquiring the total number of the repaired base stations of the selected personnel and marking as H5;

SS 3: counting the timing time of the maintained base station of the selected personnel, and calculating the time difference between the timing time of the maintained base station and the current time of the system to obtain the maintenance duration when the maintained base station has no fault between the timing time of the maintained base station and the current time of the system; when the maintained base station fails between the timing time of the maintained base station and the current time of the system, calculating the time difference between the timing time of the maintained base station and the failure time of the maintained base station to obtain the maintenance duration;

SS 4: summing all maintenance duration of the selected personnel, averaging to obtain a maintenance average of the selected personnel and marking as H6;

SS 5: carrying out dequantization processing on the maintained average value and the total number of the maintained base stations, and taking the numerical value of the dequantized average value and the total number of the maintained base stations, and obtaining a base value H4 of the selected person by using a formula H4-H5 × d3+ H6 × d6, wherein d3 and d6 are preset proportionality coefficients;

SS 6: and the maintenance calculation module sends the base value of the selected personnel to the server for storage.

4. The cloud-computing-based communication equipment management system according to claim 3, characterized in that the system further comprises a base station inspection module, wherein the base station inspection module is used for a network optimization engineer to perform daily inspection on the base station and send the position of the base station with problems to the base station inspection module through a mobile phone terminal, the base station inspection module marks the base station with problems as a faulty base station after receiving the position of the base station with problems, and the base station inspection module sends the faulty base station to the maintenance distribution module through the server.

5. The cloud-computing-based communication device management system according to claim 4, further comprising a base station notification module, where the base station notification module is used by a network optimization engineer to perform base station notification routing inspection, and specifically includes: a network optimization engineer sends a base station and a base station polling path to be polled to a base station notification module, and the base station notification module analyzes the base station polling path after receiving the base station and the base station polling path to obtain an enterprise through which the base station polling path passes and marks the enterprise as a notification enterprise; and the base station notification module sends the information of the network optimization engineer to a responsible mobile phone terminal notifying the corresponding entrance guard of the enterprise.

Images