CN111818559B - Communication base station equipment fault monitoring system based on 5G technology - Google Patents

Abstract

The invention relates to a communication base station equipment fault monitoring system based on a 5G technology, which comprises an input module, an input module and a position information group, wherein the input module comprises input equipment such as a keyboard and the like, receives base station codes and corresponding position information input from the outside, and generates and stores the position information group comprising all the base station codes and the corresponding position information which correspond to each other. And the signal receiving module is used for receiving the signals sent by the appointed base station, picking up the corresponding base station codes and the corresponding position information in the position information group when all the signal receiving modules receiving the signals sent by the same base station cannot receive the signals sent by the corresponding base station, generating abnormal base station information and outputting the abnormal base station information. And the output module comprises an output device such as a display screen and the like, responds to the abnormal base station information, and outputs the base station codes and the corresponding position information contained in the abnormal base station information when the abnormal base station information is received. The invention has the effects of identifying the base station fault in time and reducing the signal interruption time in the process of identifying and repairing.

Description

Communication base station equipment fault monitoring system based on 5G technology

Technical Field

The invention relates to the technical field of communication equipment detection systems, in particular to a communication base station equipment fault monitoring system based on a 5G technology.

Background

At present, with the continuous increase of the coverage rate of a 5G network, the number of 5G base stations around the country is rapidly increasing, and unlike the traditional base stations, the 5G base stations have higher requirements on the performance and stability of the base stations because of higher requirements on the uploading and downloading speeds, and therefore, the maintenance requirements on the base stations are also higher.

In the prior art, reference may be made to a chinese patent application publication No. CN110366195A, which discloses a method and a system for detecting a base station fault, where a base station fault detection terminal detects a state of a base station, and the base station fault detection terminal is located in a coverage area of the base station; when the base station fault detection terminal detects a base station fault, reporting an abnormal alarm signal to the preceding stage equipment of the base station fault detection terminal, so that the preceding stage equipment of the base station fault detection terminal controls the base station to store a log and/or restart after receiving the abnormal alarm signal; the abnormal alarm signal is used for indicating the base station fault detection terminal to detect the base station fault.

The above prior art solutions have the following drawbacks: the current base station fault detection system can effectively realize the positioning and fault detection of fault equipment, but the base station is actually a set of equipment with a network structure, and the fault detection of single equipment alone cannot effectively realize the effective detection and quality prejudgment of the whole base station network, so that not only can maintenance personnel be frequently maintained, but also the effect of maintenance and recovery after the damage and the network disconnection can be realized, the stability and the continuity of network signals cannot be ensured, and the 5G use requirement that the current base number is huge and the requirement is continuous cannot be realized.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a communication base station equipment fault monitoring system based on the 5G technology, which can timely identify the base station fault and reduce the signal interruption time in the process of identifying and repairing.

The above object of the present invention is achieved by the following technical solutions:

a communication base station equipment fault monitoring system based on 5G technology comprises:

the input module is used for receiving base station codes and corresponding position information input from the outside, and generating and storing a position information group containing all the base station codes and the corresponding position information which correspond to each other;

the signal receiving module is used for receiving signals sent by a specified base station, picking up corresponding base station codes and corresponding position information in the position information group when the signals sent by the corresponding base station cannot be received, generating abnormal base station information and outputting the abnormal base station information;

the output module responds to the abnormal base station information, and outputs the base station codes and the corresponding position information contained in the abnormal base station information when the abnormal base station information is received;

an emergency module comprising

The emergency storage unit comprises a plurality of emergency base stations, receives and stores codes and position information of the emergency base stations input from the outside, generates an emergency position information set and outputs the emergency position information set;

the emergency starting unit responds to the abnormal base station information, when the abnormal base station information is received, the emergency starting unit calls an emergency position information group, traverses all position information in the emergency position information group, compares the position information in the emergency position information group with the position information in the abnormal base station information, finds an emergency base station closest to the position information in the abnormal base station information in the emergency position information group, calls the code and the position information of the emergency base station, and outputs the code and the position information as selection information;

and the emergency copying unit responds to the selection information, starts the emergency base station in the selection information and calls the abnormal base station information when receiving the selection information, copies all information and incidence relation of the corresponding base station in the abnormal base station information, caches the information as the replacement information, copies the replacement information into the started emergency base station, and then powers off the base station corresponding to the abnormal base station information and marks the base station as a power-off base station.

And the emergency closing unit receives the signal sent by the power-off base station, starts timing according to a given time length and continuously receives the signal sent by the power-off base station when receiving the signal sent by the power-off base station, and calls the selection information, closes the corresponding emergency base station in the selection information and clears the replacement information in the emergency base station if the signal sent by the power-off base station can be received within the given time length.

By adopting the technical scheme, after the base stations normally operate, the information receiving module is used for receiving information of the appointed base station, when the information receiving module cannot receive information sent by the base station, the base station fault is explained, abnormal base station information is output to facilitate maintenance of operators, an emergency flow is automatically started, the emergency base station closest to the base station is used for copying data and associated information of the base station, the emergency base station is started for information transmission to prevent the long-time signal interruption, when the operators finish maintenance and start the base station, the emergency closing unit can evaluate, if the maintained base station stably outputs signals within the duration, the condition that the maintenance is finished and the maintenance is effective is explained, the emergency base station is stopped, the information written in the emergency base station is emptied, and the emergency base station is conveniently used.

The present invention in a preferred example may be further configured to: still include the early warning module, the early warning module includes:

the position dividing unit is used for calling the position information group, receiving a dividing rule input by the outside, dividing all information in the position information group into a plurality of approaching information groups according to the dividing rule, and storing and outputting the approaching information groups;

the position judging unit calls the abnormal base station information, traverses the approaching information group, finds the approaching information group containing the abnormal base station information, counts the approaching information group for 1 time, and so on, when the count of the approaching information group exceeds three times, outputs all the information of the approaching information group as a key information group, and the output module outputs all the information in the key information group after receiving the key information group;

the position caching unit responds to the key information group, calls and traverses the emergency position information group when receiving the key information group, finds emergency base stations which are equal to the base stations in the key information group in number and are close to the base stations in position, stores the codes and the position information of the emergency base stations as standby information groups, and outputs the standby information groups;

the early warning starting unit is used for responding to the standby information group and the key information group, copying all base station information and associated information in the key information group, storing the base station information and the associated information as cache information, copying the cache information into an emergency base station in the standby information group, marking and storing the base station information and the associated information of the emergency base station, which are stored with the same cache information, as the associated information, outputting an early warning completion signal after copying is completed, calling the key information group to judge conditions when the emergency starting unit receives the early warning completion signal and abnormal base station information, judging the conditions that the abnormal base station information is contained in the key information group, and calling the corresponding associated information and starting the emergency base station corresponding to the associated information if the judgment result is yes.

By adopting the technical scheme, when the base station layout is carried out, the base station is divided into a plurality of forbidden information groups according to the position of the base station and stored in the position dividing unit, when the base station fails, the position judging unit is used for searching which approach information group the base station corresponds to and counting times, when one approach information group has base station failure conditions for at least three times, the base station failure rate in the range is higher, the position cache unit is used for calling the adjacent emergency base stations to copy all base station information in the area with higher failure rate, and when the base station in the area fails again, the early warning starting unit can directly start the emergency base station with backed up data, so that the continuity of signals is effectively maintained, and the condition of signal interruption is avoided.

The present invention in a preferred example may be further configured to: further comprising:

the speed measuring module is used for receiving signals sent by all base stations, recording the total amount of information sent by all the base stations in a given time range, calculating to obtain the average speed V of each base station, carrying out averaging operation on the average speeds V of all the base stations to obtain the overall speed V, traversing all the average speeds V, finding all the average speeds V smaller than the overall speed V, marking the base station information corresponding to the average speeds V as a question information group, and displaying the information in the question information group after the output module receives the question information group.

By adopting the technical scheme, the speed measuring module can calculate the average speed V of all base stations, calculate the overall speed V according to the average speed V, mark all base stations with the speed lower than the overall speed V, facilitate the inspection of operators, confirm the reason of lower speed and check faults.

The present invention in a preferred example may be further configured to: the speed measurement module also comprises a speed measurement recovery unit, the speed measurement recovery unit continuously receives signals sent by the power-off base station in a given time length, records the total information amount, obtains and outputs a recovery average speed V1 through calculation, calls the total speed V to carry out logic judgment, judges whether the V1 is more than or equal to V or not, outputs a good signal if the judgment result is positive, outputs an in-doubt signal if the judgment result is negative, and outputs the received signal after the output module receives the good signal or the in-doubt signal.

By adopting the technical scheme, the speed of the outage base station which is recovered to run can be measured and calculated by the recovery speed measurement unit, if the measured and calculated average recovery speed V1 is not less than the total speed V, the state of the outage base station is good, otherwise, the repair state is in doubt, and an operator can conveniently find the base station which is in trouble with maintenance in time.

The present invention in a preferred example may be further configured to: the system also comprises a history backtracking module which responds to the abnormal base station information, stores all the abnormal base station information, periodically traverses the stored information, calls the corresponding base station information and the position information if two pieces of same information appear, generates quality inspection information, outputs the quality inspection information, and outputs the quality inspection information after the output module receives the quality inspection information.

Through adopting above-mentioned technical scheme, historical backtracking module can save unusual base station information, makes things convenient for the periodic maintenance inspection that carries out of operating personnel, simultaneously, if same base station appears multiple times unusually, then explains that the maintenance state of this base station is not good or hardware goes wrong, and historical backtracking module can output corresponding quality control information and make things convenient for operating personnel corresponding to have a pointed inspection.

The present invention in a preferred example may be further configured to: the emergency module also comprises an emergency conversion unit which responds to the selection information, starts timing according to given duration when the selection information is received, writes the selection information into a position information group of the input module and deletes the selection information from the emergency position information group when the timing is finished, deletes abnormal base station information from the position information group and starts to receive signals sent by the power-off base station, erases data in the power-off base station and writes the corresponding abnormal base station information into the emergency position information group when the information received by the power-off base station is received, and disconnects the emergency closing unit when the timing of the emergency conversion unit is finished.

By adopting the technical scheme, if the failed base station is not recovered for a long time, the emergency conversion unit can write the started emergency base station into the position information group to replace the original base station, so as to ensure that normal fault detection can be carried out, if the final fault base station is repaired, but the position is replaced by the emergency base station at the moment, the emergency conversion unit can interrupt the operation of the emergency closing unit, and the base station is erased and included in the emergency base station for subsequent fault maintenance, under the normal condition, the time duration of the emergency closing unit is within the range from hours to days, and the time duration of the emergency conversion module is within the time range from days to weeks.

The present invention in a preferred example may be further configured to: the system also comprises a statistic module, wherein the statistic module is used for responding to the quality inspection information and the abnormal base station information, counting the times of receiving the abnormal base station information and the corresponding abnormal base station information, counting the quantity of the quality inspection information and the corresponding quality inspection information, outputting the statistic information, and outputting the statistic information after the output module receives the statistic information.

By adopting the technical scheme, the statistical module can periodically perform statistics on the fault condition of the base station in the period, so that an operator can visually see the fault condition and the repeated fault condition of the base station conveniently, and special attention is paid to the corresponding base station.

The present invention in a preferred example may be further configured to: the same signal receiving module receives information sent by a plurality of base stations at the same time, and the same base station outputs signals to the plurality of signal receiving modules at the same time.

By adopting the technical scheme, the base station and the signal receiving modules carry out information transmission many to many, the probability of misjudgment caused by poor receiving of the signal receiving modules can be effectively avoided, if a plurality of signal receiving modules corresponding to the same base station all display abnormal base station information, the base station is necessarily indicated to have a problem, and if only one of the signal receiving modules displays the abnormal base station information, the signal receiving module is indicated to have a problem and needs to be checked.

In summary, the invention includes at least one of the following beneficial technical effects:

1. when a base station fault occurs, the emergency base station can be adopted to replace the fault base station in time, so that the signal interruption time is shortened;

2. all base stations in the area with concentrated faults can be backed up, so that the backed-up emergency base stations can be called in time to replace when the base stations have faults, and the stability of signal receiving and sending is maintained;

3. the base station and the emergency base station can be exchanged according to the maintenance period, so that the base station in operation can be effectively subjected to fault detection, and enough emergency base stations are reserved for replacing the fault base stations when necessary.

Drawings

FIG. 1 is a schematic view of the overall system of example 1;

FIG. 2 is a partial system diagram of the emergency module highlighted in embodiment 1;

FIG. 3 is a partial system diagram of the outburst warning module in embodiment 1;

fig. 4 is a partial system schematic diagram of the protruding velocity measurement module in embodiment 2.

In the figure, 1, an input module; 2. a signal receiving module; 3. an emergency module; 31. an emergency base station; 32. an emergency storage unit; 33. an emergency starting unit; 34. an emergency copy unit; 35. an emergency shutdown unit; 36. an emergency conversion unit; 4. an early warning module; 41. a position dividing unit; 42. a position determination unit; 43. a location caching unit; 44. an early warning starting unit; 5. a speed measuring module; 51. recovering the speed measuring unit; 6. a history backtracking module; 7. a statistical module; 8. and an output module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the invention discloses a communication base station equipment fault monitoring system based on 5G technology, which includes:

the input module 1 comprises input equipment such as a keyboard and the like, receives base station codes and corresponding position information input from the outside, and generates and stores a position information group containing all the base station codes and the corresponding position information which correspond to each other.

The signal receiving module 2 receives signals sent by a specified base station, the same signal receiving module 2 receives information sent by a plurality of base stations at the same time, and the same base station outputs signals to the plurality of signal receiving modules 2 at the same time. When all the signal receiving modules 2 receiving the signals sent by the same base station cannot receive the signals sent by the corresponding base station, the corresponding base station codes and the corresponding position information in the position information group are picked up to generate abnormal base station information, and the abnormal base station information is output.

And the output module 8 comprises an output device such as a display screen and responds to the abnormal base station information, and when the abnormal base station information is received, the output module outputs the base station codes and the corresponding position information contained in the abnormal base station information.

The emergency module 3 comprises a plurality of emergency base stations 31, and when the abnormal base station information is received, the emergency base stations 31 are called to copy the information of the base stations corresponding to the abnormal base station information, and the emergency module 3 is used for replacing the fault base station to receive and transmit signals.

The early warning module 4 responds to the abnormal base station information, calls the emergency base station 31 to copy and backup all base station information of an area where the abnormal base station information frequently appears, and starts the emergency base station 31 which has completed backup to use when the abnormal base station information appears in a backup range.

When the signal receiving module 2 cannot normally receive the signal from the base station, an operator can see the abnormal base station and the related position information on output equipment such as a display screen, so that the base station can be maintained in time. The base station is connected with the signal receiving module 2 in a many-to-many manner, so that whether the situation that the base station is judged wrongly to have problems due to poor reception of the signal receiving module 2 can be effectively judged.

Referring to fig. 1, the system further includes a history backtracking module 6, which is configured to store all abnormal base station information in response to the abnormal base station information, and periodically traverse the stored information, if two pieces of identical information appear, call corresponding base station information and position information, generate quality inspection information, and output the quality inspection information, and after receiving the quality inspection information, an output module 8 outputs the quality inspection information.

Referring to fig. 1, the system further includes a statistics module 7, where the statistics module 7, in response to the quality inspection information and the abnormal base station information, counts the number of times of receiving the abnormal base station information and the corresponding abnormal base station information, counts the number of the quality inspection information and the corresponding quality inspection information, and outputs the statistics information, and the output module 8, after receiving the statistics information, outputs the statistics information.

The setting of history backtracking module 6 and statistics module 7 can be periodic show the basic station trouble condition and the basic station that breaks down many times to make things convenient for operating personnel to carry out the pertinence maintenance to the basic station that breaks down easily.

With reference to fig. 2, the emergency module 3 comprises

The emergency storage unit 32 receives and stores the codes and the position information of the emergency base station 31 input from the outside, generates an emergency position information set, and outputs the emergency position information set.

And the emergency starting unit 33 responds to the abnormal base station information, when the abnormal base station information is received, the emergency starting unit 33 calls an emergency position information group, traverses all position information in the emergency position information group, compares the position information in the emergency position information group with the position information in the abnormal base station information, finds the emergency base station 31 closest to the position information in the abnormal base station information in the emergency position information group, calls the code and the position information of the emergency base station 31, and outputs the code and the position information as the selection information.

And the emergency copying unit 34 responds to the selection information, starts the emergency base station 31 in the selection information and calls the abnormal base station information when receiving the selection information, copies all information and association relations of the corresponding base stations in the abnormal base station information, caches the information as the replacement information and copies the replacement information to the started emergency base station 31, and then powers off the base station corresponding to the abnormal base station information and marks the base station as a power-off base station.

The emergency closing unit 35 receives the signal sent by the outage base station, starts to time according to a given time length and continuously receives the signal sent by the outage base station when the signal sent by the outage base station is received, and if the signal sent by the outage base station can be received within the given time length, the emergency closing unit 35 calls the selection information, closes the corresponding emergency base station 31 in the selection information, and clears the replacement information in the emergency base station 31.

When receiving information of an abnormal base station, the emergency starting unit 33 traverses and calls the emergency base station 31 which is close to the abnormal base station, and copies information and the like of a fault base station through the emergency copying unit 34, the emergency base is started and the fault base station is disconnected, so that the emergency base station 31 can be used for replacing the original base station to carry out signal transmission, when the maintenance of the fault base station is completed and powered on, the emergency closing unit 35 receives a signal of a power-off base station in a given time length (usually, several hours), if the signal of the power-off base station in the given time length is stable, the maintenance is completed, the emergency closing module is powered off and erases data in the emergency base station 31, the next use is facilitated, and data redundancy or confusion in the emergency base station 31 is avoided.

The emergency module 3 further includes an emergency switching unit 36, responding to the selection information, starting to time according to a given time length when receiving the selection information, the given time length being 10 days to 20 days, when the time is over, writing the selection information into the position information group of the input module 1 and deleting the selection information from the emergency position information group, meanwhile, deleting the abnormal base station information from the position information group and starting to receive the signal sent by the power outage base station, when receiving the information received by the power outage base station, erasing the data in the power outage base station and writing the corresponding abnormal base station information into the emergency position information group, and when the time is over, the emergency switching unit 36 disconnects the emergency closing unit 35.

If the failed base station is not recovered for a long time, the emergency switching unit 36 writes the activated emergency base station 31 into the location information group to replace the original base station, so as to ensure that the running base station can be normally troubleshooting, if the failed base station is repaired finally, but the location is replaced by the emergency base station 31 at this time, the emergency switching unit 36 interrupts the operation of the emergency closing unit 35, and erases and classifies the base station into the emergency base station 31 for subsequent fault maintenance, generally, the duration of the emergency closing unit 35 is within a range from several hours to several days, and the duration of the emergency switching module is within a time range from several days to several weeks.

Referring to fig. 3, the early warning module 4 includes:

the position dividing unit 41 calls the position information group, receives a dividing rule input from the outside, divides all information in the position information group into a plurality of proximity information groups according to the dividing rule, and stores and outputs the proximity information groups.

The position determining unit 42 calls the abnormal base station information, traverses the proximity information group, finds the proximity information group including the abnormal base station information, counts the proximity information group for 1 time, and so on, when the count of the proximity information group exceeds three times, outputs all the information of the proximity information group as a key information group, and the output module 8 outputs all the information in the key information group after receiving the key information group.

The location buffer unit 43, in response to the key information group, when receiving the key information group, calls and traverses the emergency location information group and finds the emergency base stations 31 whose number is equal to the number of base stations in the key information group and whose locations are close to each other, stores the codes and location information of these emergency base stations 31 as a backup information group, and outputs the backup information group.

The early warning starting unit 44 is configured to, in response to the backup information group and the key information group, copy all base station information and associated information in the key information group, store the base station information and the associated information as cache information, copy the cache information to the emergency base station 31 in the backup information group, mark and store related information of the base station and the emergency base station 31 in which the same cache information is stored as associated information, and output an early warning completion signal after the copying is completed, when the emergency starting unit 33 receives the early warning completion signal and the abnormal base station information, call the key information group to perform condition judgment, judge that the abnormal base station information is included in the key information group, and if the judgment result is yes, call corresponding associated information and start the emergency base station 31 corresponding to the associated information.

Through the division of the areas of the base stations, when abnormal base station information appears in the same approaching information group for multiple times, the area is indicated to be a fault multi-occurrence area, at this time, the early warning starting unit 44 can correspond to one emergency base station 31 for all base stations in the area, and copy information in the base stations corresponding to each other into the emergency base station 31, once the early warning starting unit 44 receives that the abnormal base station information is one base station in the key information group, the corresponding emergency base station 31 can be started in time for replacement, so that the time length of signal interruption is effectively reduced, and the stability of information transmission is maintained.

Example 2:

the difference from embodiment 1 is that, referring to fig. 4, a communication base station equipment fault monitoring system based on 5G technology disclosed by the present invention further includes:

the speed measurement module 5 receives signals sent by all base stations, records the total amount of information Q1 sent by all base stations within a given time period t1, calculates Q1/t1 to obtain the average speed V of each base station, performs averaging operation on the average speeds V of all base stations to obtain the overall speed V, traverses all the average speeds V, finds all the average speeds V smaller than the overall speed V, marks the base station information corresponding to the average speeds V as a challenge information group, and displays the information in the challenge information group after the output module 8 receives the challenge information group.

The speed measurement module 5 further includes a speed measurement recovery unit 51, the speed measurement recovery unit 51 continuously receives signals sent by the power-off base station in a given time period t2, records the total information amount Q2, obtains and outputs a recovery average speed V1 by calculating Q2/t2, calls the overall speed V to perform logic judgment, and outputs a good signal if the judgment result is that V1 is not less than V, and outputs an in-doubt signal if the judgment result is that V is not less than V, and the output module 8 outputs the received signal after receiving the good signal or the in-doubt signal.

Through the speed measuring module 5, on the one hand, the output module 8 can show the base station of which the average speed is less than the total speed, so that an operator can conveniently and effectively analyze and patrol the base stations with lower speeds, thereby ensuring the stability of the total transmission speed of the base station, on the other hand, the average speed V1 recovered after the power failure base station is recovered can be measured and calculated, whether the average speed V1 can reach the level of the total speed V or not is judged, and whether the effect of the base station repairing work is good or not is judged.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. A communication base station equipment fault monitoring system based on 5G technology is characterized by comprising:

the system comprises an input module (1) for receiving base station codes and corresponding position information input from the outside, and generating and storing a position information group comprising all the base station codes and the corresponding position information which correspond to each other;

the signal receiving module (2) is used for receiving signals sent by a specified base station, picking up corresponding base station codes and corresponding position information in the position information group when the signals sent by the corresponding base stations cannot be received, generating abnormal base station information and outputting the abnormal base station information;

the output module (8) responds to the abnormal base station information, and outputs the base station codes and the corresponding position information contained in the abnormal base station information when the abnormal base station information is received;

an emergency module (3) comprising

The emergency storage unit (32) comprises a plurality of emergency base stations (31), receives and stores codes and position information of the emergency base stations (31) input from the outside, generates an emergency position information set and outputs the emergency position information set;

the emergency starting unit (33) responds to the abnormal base station information, when the abnormal base station information is received, the emergency starting unit (33) calls an emergency position information group, traverses all position information in the emergency position information group, compares the position information in the emergency position information group with the position information in the abnormal base station information, finds an emergency base station (31) closest to the position information in the abnormal base station information in the emergency position information group, calls the code and the position information of the emergency base station (31), and outputs the code and the position information as selection information;

the emergency copying unit (34) responds to the selection information, when the selection information is received, the emergency base station (31) in the selection information is started, the abnormal base station information is called, all information and association relations of the base stations corresponding to the abnormal base station information are copied, the replacement information is cached and copied to the started emergency base station (31), then the base station corresponding to the abnormal base station information is powered off, and the base station is marked as a power-off base station;

and the emergency closing unit (35) receives the signal sent by the power-off base station, starts to time according to the given time length and continuously receives the signal sent by the power-off base station when receiving the signal sent by the power-off base station, and calls the selection information, closes the corresponding emergency base station (31) in the selection information and clears the replacement information in the emergency base station (31) if the signal sent by the power-off base station can be received in the given time length.

2. The communication base station equipment fault monitoring system based on 5G technology according to claim 1, characterized by further comprising an early warning module (4), wherein the early warning module (4) comprises:

the position dividing unit (41) calls the position information group, receives a dividing rule input by the outside, divides all information in the position information group into a plurality of approaching information groups according to the dividing rule, and stores and outputs the approaching information groups;

the position judging unit (42) calls the abnormal base station information, traverses the approaching information group, finds the approaching information group containing the abnormal base station information, counts the approaching information group for 1 time, and so on, when the count of the approaching information group exceeds three times, outputs all information of the approaching information group as a key information group, and the output module (8) outputs all information in the key information group after receiving the key information group;

the position caching unit (43) responds to the key information group, calls and traverses the emergency position information group when receiving the key information group, finds emergency base stations (31) which are equal to the number of the base stations in the key information group and are close to the positions of the base stations, stores the codes and the position information of the emergency base stations (31) as standby information groups, and outputs the standby information groups;

and the early warning starting unit (44) responds to the standby information group and the key information group, copies all base station information and associated information in the key information group, stores the base station information and the associated information as cache information, copies the cache information into the emergency base station (31) in the standby information group, marks and stores the related information of the base station and the emergency base station (31) which have the same cache information as the cache information into the associated information, outputs an early warning completion signal after the copying is completed, calls the key information group to judge conditions when the emergency starting unit (33) receives the early warning completion signal and the abnormal base station information, and calls the corresponding associated information to start the emergency base station (31) corresponding to the associated information if the judging result is yes.

3. The system for monitoring equipment failure of communication base station based on 5G technology according to claim 1, further comprising:

the speed measuring module (5) receives signals sent by all base stations, records the total amount of information sent by all base stations in a given time range, calculates the average speed V of each base station, performs averaging operation on the average speeds V of all base stations to obtain the overall speed V, traverses all the average speeds V, finds all the average speeds V smaller than the overall speed V and marks the base station information corresponding to the average speeds V as a question information group, and the output module (8) receives the question information group and then displays the information in the question information group.

4. The communication base station equipment fault monitoring system based on 5G technology according to claim 3, characterized in that: the speed measurement module (5) further comprises a speed measurement recovery unit (51), the speed measurement recovery unit (51) continuously receives signals sent by the power-off base station in a given time length, records the total amount of information, obtains and outputs a recovery average speed V1 through calculation, calls the overall speed V to perform logic judgment, and outputs a good signal if the judgment condition is that V1 is larger than or equal to V, and outputs an in-doubt signal if the judgment result is positive, and the output module (8) outputs the received signal after receiving the good signal or the in-doubt signal.

5. The communication base station equipment fault monitoring system based on 5G technology according to claim 1, characterized in that: the system also comprises a history backtracking module (6) which responds to the abnormal base station information, stores all the abnormal base station information, periodically traverses the stored information, if two pieces of same information appear, calls the corresponding base station information and position information, generates quality inspection information and outputs the quality inspection information, and the output module (8) outputs the quality inspection information after receiving the quality inspection information.

6. The communication base station equipment fault monitoring system based on 5G technology according to claim 1, characterized in that: the emergency module (3) further comprises an emergency conversion unit (36), wherein the emergency conversion unit (36) responds to the selection information, starts timing according to a given time length when the selection information is received, when the timing is finished, the selection information is written into the position information group of the input module (1) and deleted from the emergency position information group, meanwhile, the abnormal base station information is deleted from the position information group and signals sent by the power-off base station begin to be received, after the information received by the power-off base station is received, data in the power-off base station are erased and corresponding abnormal base station information is written into the emergency position information group, and when the timing is finished, the emergency conversion unit (36) disconnects the emergency closing unit (35).

7. The communication base station equipment fault monitoring system based on 5G technology according to claim 5, characterized in that: the quality control system further comprises a counting module (7), wherein the counting module (7) responds to the quality inspection information and the abnormal base station information, counts the number of times of receiving the abnormal base station information and the corresponding abnormal base station information, counts the number of the quality inspection information and the corresponding quality inspection information, outputs the counting information, and outputs the counting information after the output module (8) receives the counting information.

8. The communication base station equipment fault monitoring system based on 5G technology according to claim 1, characterized in that: the same signal receiving module (2) receives information sent by a plurality of base stations at the same time, and the same base station outputs signals to the plurality of signal receiving modules (2) at the same time.

Images