CN211321337U - Monitoring system for communication system - Google Patents

Abstract

The utility model discloses a communication system's monitoring system. Wherein, this system includes: the cloud server is respectively arranged on a plurality of local computing platforms of a plurality of subsystems of the communication system; the local computing platform comprises an acquisition plug-in used for acquiring monitoring information of the subsystem; the database is used for storing the monitoring information acquired by the acquisition plug-in; the calculator is used for analyzing the monitoring information, determining whether the monitoring information is abnormal or not and generating a monitoring result; the communication device is used for the local computing platform to carry out remote communication with the cloud server and sending a monitoring result to the cloud server; and the cloud server is used for monitoring the communication system according to the monitoring results of the subsystems. The utility model provides an in the correlation technique data of a plurality of subsystems all convey the operation server and handle, lead to high in the clouds server 32's wasting of resources, the burden is too high, and the technical problem that the treatment effeciency is low.

Description

Monitoring system for communication system

Technical Field

The utility model relates to a communication field particularly, relates to a communication system's monitoring system.

Background

In the related technology, the train is provided with independent communication equipment in each carriage, the communication equipment of each carriage collects information to be monitored in real time and sends the information to the cloud server, and the cloud server performs operation and processing according to the collected information to determine whether the communication system of the corresponding carriage fails, so that the communication system is monitored, and whether the communication system fails is determined. Because the train has a plurality of carriages, and a high in the clouds server probably needs to serve a plurality of trains in addition, the carriage of all trains all sends the remote server with information, is handled by the high in the clouds server, and the requirement to the computing power and the storage capacity of high in the clouds server is very high, can cause great operation load for the high in the clouds server under the great circumstances of data moreover, and the treatment effeciency is low. And the information sent to the server by a plurality of different carriages may be the same, so that the cloud server repeats the same processing process for a plurality of times, resource waste is caused, and the processing efficiency of the cloud server is reduced.

In view of the above problems, no effective solution has been proposed.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a communication system's monitoring system to solve the data of a plurality of subsystems in the correlation technique at least and all convey the operation server and handle, lead to the wasting of resources of high in the clouds server 32, the burden is too high, and the technical problem that the treatment effeciency is low.

According to an aspect of the embodiments of the present invention, there is provided a communication system monitoring system, including: the cloud server is respectively arranged on a plurality of local computing platforms of a plurality of subsystems of the communication system; the local computing platform comprises a collection plug-in, a database, a calculator and a communication device; the acquisition plug-in is in data connection with the database and is used for acquiring monitoring information of the subsystem; the database is in data connection with the calculator and is used for storing the monitoring information acquired by the acquisition plug-in; the calculator is in data connection with the communication device and is used for analyzing the monitoring information, determining whether the monitoring information is abnormal or not and generating a monitoring result, wherein the abnormal monitoring result is generated under the condition that the monitoring information is abnormal, and the normal monitoring result is generated under the condition that the monitoring information is normal; the communication device is in data connection with the cloud server, and is used for the local computing platform to perform remote communication with the cloud server and send the monitoring result to the cloud server; and the cloud server is in data connection with the communication devices of the local computing platforms and is used for monitoring the communication system according to the monitoring results of the subsystems.

Optionally, the cloud server includes: a communication module, a display module; the communication module is in data connection with the communication device of the local computing platform; the display module is in data connection with the communication module and is used for displaying data sent by the local computing platform and received by the communication module, wherein the data comprises at least one of the following data: monitoring results of the subsystem.

Optionally, the database includes a feature library, and the feature library is used to store feature data, and the feature data is used to repair the subsystem.

Optionally, the local computing platform further includes a fault repairing module, where the fault repairing module is configured to, when monitoring that the monitoring information of the subsystem is abnormal, call the feature data of the feature library, repair a fault corresponding to the monitoring information abnormality, and generate a repairing result; after the subsystem is repaired, collecting monitoring information of the repaired subsystem; and detecting the repaired subsystem according to the monitoring information to generate a repair result, wherein a repair failure result is generated when the monitoring information is detected to be abnormal, and a repair success result is generated when the monitoring information is detected to be normal.

Optionally, the monitoring information includes at least one of the following: system information, application service information, streaming media service information; the system information includes at least one of: CPU utilization rate, memory utilization rate, disk occupation rate and network card state.

Optionally, the number of the acquisition plug-ins is multiple, the acquisition plug-ins are respectively used for acquiring different monitoring information, and the acquisition plug-ins are stored in the acquisition module, wherein the acquisition module is used for selecting corresponding acquisition plug-ins according to the monitoring information to be monitored, and acquiring the monitoring information according to the acquisition plug-ins.

Optionally, the cloud server further includes a user interaction module, where the user interaction module is configured to receive an operation instruction of a user and execute the operation instruction, where the operation instruction includes a setup instruction for instructing the subsystem to set up the local computing platform.

Optionally, the cloud server further includes a monitoring module, and the monitoring module is configured to monitor the communication system according to the monitoring results of the plurality of subsystems.

Optionally, the local computing platform further includes: and the updating module is in data connection with the communication device and is used for updating the feature library of the subsystem according to the feature value of the service feature information corresponding to the monitoring information, wherein the feature value is sent by the cloud server and received by the communication device.

Optionally, the communication system is a train communication system, the plurality of subsystems are respectively arranged on different carriages of the train, and the local computing platform is also arranged on the carriage where the corresponding subsystem is located.

In an embodiment of the present invention, the monitoring information of the subsystems of the communication system is collected, wherein the communication system comprises a plurality of subsystems; determining whether the subsystem is abnormal or not through the monitoring information, and locally generating a monitoring result; the monitoring result is sent to the cloud server, wherein, the cloud server is used for carrying out the mode of monitoring communication system according to the monitoring result of a plurality of subsystems, through gathering the monitoring information locally at the subsystem, and monitor the monitoring information, directly send the monitoring result to the cloud server, the purpose of only sending the monitoring result to the cloud server is reached, thereby realized reducing burden and resource occupation for the cloud server, the technical effect of improving the processing efficiency of the cloud server, and then solved in the correlation technique that the data of a plurality of subsystems all convey the operation server and handle, lead to the wasting of resources of cloud server 32, the burden is too high, and the technical problem that the processing efficiency is low.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic diagram of a high-speed rail wifi system according to the related art;

fig. 2 is a schematic diagram of a high-speed rail wifi system and a cloud server according to the related art;

fig. 3 is a schematic diagram of a communication system monitoring system according to an embodiment of the present invention;

fig. 4 is a flow chart of a communication system monitoring method according to an embodiment of the present invention;

fig. 5 is a flow chart of another communication system monitoring method according to an embodiment of the present invention;

fig. 6 is a flowchart of a wifi system and cloud server for edge computing according to an embodiment of the present invention;

FIG. 7 is a flow diagram of an analysis and diagnostic method according to an embodiment of the present invention;

fig. 8 is a flow chart of a data update method according to an embodiment of the present invention;

fig. 9 is a schematic diagram of a communication system monitoring device according to an embodiment of the present invention;

fig. 10 is a schematic diagram of another communication system monitoring device according to an embodiment of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, communication system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Fig. 1 is a schematic diagram of a WIFI system for a high-speed rail according to the related art, as shown in fig. 1, in the related art, a server is placed on each car of a train, software or services for supporting WIFI operation are run on the server, and wireless communication is performed through a wireless Access point ap (wireless Access point). Generally, in order to guarantee that the WIFI on each carriage normally works, the relevant service logs on each carriage server need to be collected and sent to the cloud for analysis, and when a certain server is abnormal, the cloud monitoring platform can determine the faulty train and show and alarm relevant information.

Fig. 2 is a schematic diagram of a high-speed railway WIFI system and a cloud server according to the related art, as shown in fig. 2, in the current technology, a plurality of carriages of a plurality of trains are respectively and respectively connected with the cloud server, and respective data are transmitted to the cloud server for processing, analysis and operation are performed, but the high-speed railway has a high operation speed, the network bandwidth of the high-speed railway WIFI is limited, when more and more data need to be acquired on the server, the data amount required to be transmitted to the cloud is larger and larger, so that the waste of the network bandwidth of the high-speed railway WIFI is obviously caused, all high-speed railway WIFI servers of national railway trunks transmit acquired information to the cloud server, so that great pressure is caused on the cloud server, in addition, many data transmitted to the cloud are redundant, and the waste of storage resources of the cloud server is also caused.

In accordance with an embodiment of the present invention, there is provided an embodiment of a communication system monitoring system, it is noted that the steps illustrated in the flowchart of the drawings may be performed in a computer communication system such as a set of computer executable instructions, and that while a logical order is illustrated in the flowchart, in some cases the steps illustrated or described may be performed in an order different than here.

Fig. 3 is a schematic diagram of a communication system monitoring system according to an embodiment of the present invention, as shown in fig. 3, according to another aspect of the embodiment of the present invention, there is also provided a communication system monitoring system, including: cloud server 32 and local computing platform 34, the system of which is described in detail below.

A plurality of cloud servers 32, a plurality of local computing platforms 34 respectively provided in a plurality of subsystems of the communication system; the local computing platform includes an acquisition plug-in 342, a database 344, a calculator 346, a communication device 348; the acquisition plug-in 342 is in data connection with the database 344 and is used for acquiring monitoring information of the subsystem; the database 344 is in data connection with the calculator 346 and is used for storing the monitoring information acquired by the acquisition plug-in; a calculator 346, in data connection with the communication device 348, for analyzing the monitoring information, determining whether the monitoring information is abnormal, and generating a monitoring result; the communication device 348 is in data connection with the cloud server 32, and is configured to perform remote communication between the local computing platform and the cloud server, and send the monitoring result to the cloud server.

Through the system, monitoring information of subsystems of the communication system is collected, wherein the communication system comprises a plurality of subsystems; determining whether the subsystem is abnormal or not through the monitoring information, and locally generating a monitoring result; send the monitoring result to cloud server 32, wherein, cloud server 32 is used for carrying out the mode of monitoring communication system according to the monitoring result of a plurality of subsystems, through gathering monitoring information at subsystem local, and monitor monitoring information, directly send the monitoring result to cloud server 32, the purpose of calculating at subsystem local has been reached, only send the monitoring result to cloud server 32, thereby realized reducing burden and resource occupation for cloud server 32, improve the technological effect of the treatment effeciency of cloud server 32, and then solved in the correlation technique data of a plurality of subsystems all convey the operation server and handle, lead to cloud server 32's wasting of resources, the burden is too high, and the technical problem that treatment effeciency is low.

Optionally, the cloud server 32 includes: a communication module, a display module; a communications module in data connection with communications device 348 of local computing platform 34; a display module, in data connection with the communication module, for displaying data sent by the local computing platform 34 received by the communication module, the data including at least one of: and monitoring results of the subsystems.

Optionally, database 344 includes a feature library for storing feature data for repairing the subsystem.

Optionally, the local computing platform 34 further includes a fault repairing module, where the fault repairing module is configured to, when monitoring that monitoring information of the subsystem is abnormal, call feature data of the feature library, repair a fault corresponding to the monitoring information abnormality, and generate a repairing result; after the subsystem is repaired, collecting monitoring information of the repaired subsystem; and detecting the repaired subsystem according to the monitoring information to generate a repairing result, wherein a repairing failure result is generated when the monitoring information is detected to be abnormal, and a repairing success result is generated when the monitoring information is detected to be normal.

Optionally, the monitoring information includes at least one of the following: system information, application service information, streaming media service information; the system information includes at least one of: CPU utilization rate, memory utilization rate, disk occupation rate and network card state.

Optionally, the number of the acquisition plug-ins 342 is multiple, the acquisition plug-ins 342 are respectively used for acquiring different monitoring information, and the acquisition plug-ins 342 are stored in an acquisition module, wherein the acquisition module is used for selecting corresponding acquisition plug-ins 342 according to the monitoring information to be monitored, and acquiring the monitoring information according to the acquisition plug-ins 342.

Optionally, the cloud server 32 further includes a user interaction module, which is configured to receive an operation instruction of a user and execute the operation instruction, where the operation instruction includes a setup instruction for instructing the subsystem to setup the local computing platform 34.

Optionally, the cloud server 32 further includes a monitoring module, and the monitoring module is configured to monitor the communication system according to the monitoring results of the multiple subsystems.

Optionally, the local computing platform 34 further includes: and an updating module, which is in data connection with the communication device 348 and is configured to update the feature library of the subsystem according to the feature value of the service feature information corresponding to the monitoring information, where the feature value is sent by the communication device 348 receiving the cloud server 32.

Optionally, the communication system is a train communication system, the plurality of subsystems are respectively disposed on different cars of the train, and the local computing platform 34 is also disposed on the car where the corresponding subsystem is located.

Fig. 4 is a flowchart of a communication system monitoring method according to an embodiment of the present invention, and as shown in fig. 4, the method includes the following steps:

step S402, collecting monitoring information of subsystems of a communication system, wherein the communication system comprises a plurality of subsystems;

step S404, determining whether the subsystem is abnormal or not through the monitoring information, and generating a monitoring result locally;

step S406, sending the monitoring result to a cloud server, where the cloud server is configured to monitor the communication system according to the monitoring results of the multiple subsystems.

Through the steps, monitoring information of subsystems of a communication system is collected, wherein the communication system comprises a plurality of subsystems; determining whether the subsystem is abnormal or not through the monitoring information, and locally generating a monitoring result; send the monitoring result to cloud server 32, wherein, cloud server 32 is used for carrying out the mode of monitoring communication system according to the monitoring result of a plurality of subsystems, through gathering monitoring information at subsystem local, and monitor monitoring information, directly send the monitoring result to cloud server 32, the purpose of calculating at subsystem local has been reached, only send the monitoring result to cloud server 32, thereby realized reducing burden and resource occupation for cloud server 32, improve the technological effect of the treatment effeciency of cloud server 32, and then solved in the correlation technique data of a plurality of subsystems all convey the operation server and handle, lead to cloud server 32's wasting of resources, the burden is too high, and the technical problem that treatment effeciency is low.

Preferably, the communication system may be a wireless communication system of a train. Under the scene of high-speed running of the train, the bandwidth of a wireless communication system installed on the train is limited, and the limited bandwidth can be prevented from being excessively occupied by adopting the scheme of the application. The communication system comprises a plurality of subsystems, and the subsystems can be respectively arranged on different carriages of the train. The subsystems may also be located at different locations to provide communication services to different locations, such as communication services on different floors of a building, communication services for affiliates in different cities of a company, etc. The plurality of subsystems may be subsystems arranged in the same physical space and processing data independently. The communication subsystems of different carriages of the train are mutually independent, and because the communication subsystems are positioned in different carriages, the physical spaces of the subsystems are independent, the receiving and the sending of data in different physical spaces are mutually independent, and the data processing is mutually independent and does not generate interference.

Each subsystem is correspondingly provided with a local computing platform 34, and the local computing platform 34 can be a calculator 346, so that the cost is low, the laying is simple, and the operability is strong. The calculator 346 can determine whether the subsystem is malfunctioning according to the collected monitoring information according to a fixed program. Specifically, the monitoring information is compared with a safety threshold corresponding to the monitoring information, and when the monitoring information exceeds the safety threshold, the subsystem is determined to be faulty, otherwise, the subsystem is determined to be fault-free. Therefore, whether the subsystem fails or not is effectively and quickly determined according to the monitoring information. The subsystem is monitored through the local computing platform 34, so that operation is performed locally on the subsystem, more monitoring information collected by the subsystem is not required to be sent to the cloud server 32, and only a monitoring result determined according to the monitoring information of the subsystem is sent to the cloud server 32, so that the technical effects of reducing burden and resource occupation of the cloud server 32 and improving the processing efficiency of the cloud server 32 are achieved. The monitoring result is also the processing result of the collected monitoring information, after the processing, the processing result is more convenient for transmission and communication than the collected monitoring information, and a part or all of the processing operation of the cloud server 32 can be performed on the local computing platform 34, so that the burden of the computing server is effectively reduced. The technical problems that in the related art, data of a plurality of subsystems are transmitted to the operation server to be processed, so that resource waste, high burden and low processing efficiency of the cloud server 32 are caused are solved.

The local computing platform 34 includes an acquisition plug-in 342, a database 344, a calculator 346, a communicator 348; the acquisition plug-in 342 is in data connection with the database 344 and is used for acquiring monitoring information of the subsystem; the database 344 is respectively in data connection with the acquisition plug-in 342 and the calculator 346 and is used for storing the monitoring information acquired by the acquisition plug-in 342; a calculator 346, respectively connected to the database 344 and the communication device 348, for analyzing the monitoring information, determining whether the monitoring information is abnormal, and generating a monitoring result; a communication device 348 in data connection with the cloud server 32 for remote communication between the local computing platform 34 and the cloud server 32. Therefore, the purpose of performing operation locally in the subsystem and only sending the monitoring result to the cloud server 32 is achieved according to the matching of the modules.

The above-mentioned collection of monitoring information of the subsystem to be monitored can be performed by a collection plug-in 342 provided in the local computing platform 34 of the subsystem. The monitoring information can reflect service characteristic information of corresponding services, and the monitoring information and the services of the corresponding subsystems have one-to-one correspondence, so that whether the subsystems are abnormal or not can be effectively determined according to the monitoring information. The monitoring information includes at least one of: system information, application service information, streaming media service information.

Determining whether the subsystem is abnormal or not through the monitoring information, wherein the method can be characterized in that the value of the collected monitoring information is compared with a preset normal value range to determine whether the value of the monitoring information falls within the range of the normal value or not, and the monitoring information is determined to be normal under the condition that the monitoring information falls within the range of the normal value; in the case where the monitoring information does not fall within the range of the normal value, it is determined that the monitoring information is abnormal. Whether the subsystem is abnormal or not is determined through the monitoring information, or whether the subsystem is abnormal or not can be determined through processing the collected monitoring information, comparing the processed monitoring information with a preset normal numerical range, for example, calculating the change rate of the numerical value of the monitoring information, and comparing the change rate with the preset normal change rate range.

The monitoring result of the monitoring information may include a processing flow, a history log, etc. of the monitoring information, and the processing flow may be that the monitoring information is collected from the subsystem in the local computing platform 104 through the collection plug-in 342, stored in the database 344, analyzed in the calculator 346, and generates a monitoring result, and the monitoring result is remotely communicated in the communication device 348. The different operations and corresponding times may be used as a history log of the monitoring information. The detection result is used for the cloud server 32 to monitor the communication system. The monitoring result of the monitoring information comprises abnormal monitoring information and normal monitoring information. The cloud server 32 receives monitoring results of a plurality of subsystems of the communication system, and when one subsystem is abnormal, it can be determined that the communication system in which the subsystem is located is abnormal. Similarly to the above-described embodiment, the operation server 102 may determine that the detected communication information system is abnormal when receiving the abnormality of the detection result of the sub-system exceeding the preset ratio in the communication system. The purpose that the cloud server 32 determines the monitoring information according to the monitoring result is achieved, and the cloud server 32 can judge whether the monitoring information is abnormal or not according to the monitoring information, so that the reliability, the safety and the traceability of monitoring are effectively improved.

The plurality of subsystems only send the monitoring results to the cloud server 32, and the cloud server 32 monitors whether the communication system is abnormal or not according to the monitoring results of the plurality of subsystems. Not only can effectively save the communication resources between each subsystem and the cloud server 32, but also can effectively save the storage space of the cloud server 32, thereby effectively improving the computing efficiency and the data processing efficiency of the cloud.

Optionally, after collecting the monitoring information of the subsystem of the communication system, the method includes: the monitoring information is parsed to generate log information, which is stored in the database 344. By storing the monitoring information generation log information in the database 344, extraction at the time of operation is facilitated. Wherein the monitoring information comprises at least one of: system information, application service information, streaming media service information; whether the system is abnormal or not can be determined through the system information, whether the application service is abnormal or not can be determined through the application service information, and whether the streaming media service is abnormal or not can be determined through the streaming media service information, so that various monitoring requirements are met.

The system information may be CPU utilization, memory utilization, disk occupancy, network card status, etc. The CPU utilization rate can be used for monitoring whether the service of the CPU is normal or not; the memory utilization rate can be used for monitoring whether the memory is normal or not; the disk occupancy can be used for monitoring whether the disk is normal or not; the network card status can be used to monitor whether the network card is normal. The application service information may include various programs running on the subsystem server, such as: and providing a java program, an AP control program and the like for connecting the user with the Wifi network. The streaming service information may include a program for providing streaming, for example, a video playing program, a music playing program, and the like. The monitoring information can be used for monitoring a plurality of subsystems simultaneously, and the subsystems are comprehensively monitored through the monitoring information, so that the communication resources of the subsystems and the source end server are saved to a greater extent.

Optionally, determining whether the subsystem is abnormal through the monitoring information, and generating the monitoring result includes: calling log information; judging whether the monitoring information corresponding to the log information is abnormal or not according to the log information; and generating an abnormal monitoring result under the condition that the monitoring information is abnormal, and generating a normal monitoring result under the condition that the monitoring information is normal.

The log information is obtained by analyzing the monitoring information, and the log information may include attribute information, storage location, information source and other related information of the monitoring information. The monitoring information in the log information includes attribute information, and the attribute information can be used for judging whether the monitoring information is abnormal or not. Specifically, the attribute information of the monitoring information is compared with a preset normal value range. The determining whether the monitoring information is abnormal can also determine whether the monitoring information is abnormal according to whether the storage position of the monitoring information in the log information is the same as a preset normal storage position or according to whether the information source of the monitoring information is the same as a preset normal information source, so that the purpose of monitoring the service corresponding to the monitoring information is achieved.

And generating a monitoring result, including generating an abnormal monitoring result under the condition that the monitoring information is abnormal, and generating a normal monitoring result under the condition that the monitoring information is normal, so that the monitoring result is sent to the cloud server 32, communication resources of the subsystem and the source server are saved, burden and resource occupation are reduced for the cloud server 32, and the technical effect of improving the processing efficiency of the cloud server 32 is achieved.

Optionally, in the case that the monitoring information is abnormal, after generating the monitoring abnormal result, the method includes: generating a monitoring abnormal result under the condition that the subsystem is abnormal; analyzing monitoring information of monitoring abnormity to determine fault information of the subsystem; according to the fault information, calling and repairing characteristic data of the fault information; and repairing the subsystem according to the characteristic data. The fault repairing program is called according to the fault information, so that the problem of the faults of the subsystem is solved to a certain extent, abnormal services of the subsystem are automatically repaired, and the operation reliability and the stability of the subsystem are improved.

The fault information includes information of a service corresponding to the monitoring information, including a name, an attribute, and the like, and the fault information also includes a fault type, fault data, and the like, so that a corresponding fault repairing program can be called according to the fault type and the fault data to perform fault elimination processing on the service. The feature library may store the failure recovery program, and the failure recovery program is stored in the feature library in advance so as to be called at any time. The fault repairing program is called according to the fault information, so that the problem of the faults of the subsystem is solved to a certain extent, abnormal services of the subsystem are automatically repaired, and the operation reliability and the stability of the subsystem are improved.

Optionally, after the subsystem is repaired according to the feature data, the method includes: collecting monitoring information of the repaired subsystem; detecting the repaired subsystem according to the monitoring information of the repaired subsystem to generate a repairing result, wherein a repairing failure result is generated when the monitoring information is detected to be abnormal, and a repairing success result is generated when the monitoring information is detected to be normal; the repair result is sent to the cloud server 32. Under the condition that the subsystem is abnormal, the self-repairing is carried out, the result is fed back to the cloud server 32, partial fault eliminating operation is carried out on one field of the subsystem, and resources of the cloud server 32 are effectively saved.

In the process of repairing the service, the fault repairing program may continuously monitor the service, which is the same as the step of monitoring whether the service is abnormal according to the monitoring information. And detecting the service once until the fault repairing program is operated, and judging whether the repaired service is abnormal according to the collected monitoring information to determine whether the repairing is successful. Specifically, if the repaired service is detected to be normal, the repair is successful; and if the repaired service is detected to be abnormal, the repair is failed. And sends the final repair result to cloud server 32. Further conserving resources of cloud server 32.

The cloud server 32 performs different operations according to different repair results. In the case of failure of repair, the cloud server sends the failure information to relevant personnel, which may be users or maintenance personnel. And prompting to eliminate the fault. Therefore, the faults generated by the services are eliminated in an automatic and manual combined mode, and the reliability and effectiveness of fault elimination of the subsystem are improved.

Optionally, before the feature data for repairing the fault information is called according to the fault information, the method includes: collecting service characteristic information corresponding to the monitoring information; sending the service characteristic information to the cloud server 32; receiving a characteristic value of the service characteristic information sent by the cloud server 32; and updating the feature library according to the feature value. And dynamic feedback is formed, the integrity of the feature library is improved, and the probability of repairing the fault through the feature library is improved, so that the stability and the reliability of the subsystem are further improved.

The data collected by the local computing platform 34 is fed back to the cloud server 32, the cloud server 32 processes the data to generate a characteristic value, the characteristic value is sent to all subsystems, and the subsystems update the characteristic library of the local computing platform 34 correspondingly, so that dynamic feedback is formed, the integrity of the characteristic library is improved, the probability of repairing faults through the characteristic library is improved, and the stability and the reliability of the subsystems are further improved.

Optionally, the collecting monitoring information of the subsystem of the communication system includes: acquiring an acquisition plug-in 342, wherein the acquisition plug-in 342 is used for acquiring corresponding monitoring information; monitoring information of the subsystem is collected through the collection plug-in 342. The acquisition of monitoring information is ensured, and the application range of subsystem monitoring and the system stability are improved.

Since the monitoring information to be collected may be various, and the collecting plug-in 342 for each kind of monitoring information cannot be shared, the kinds of the collecting plug-in 342 are also various. The collection plug-in 342 may be called from a storage device, or the collection plug-in 342 may be obtained by the subsystem from other devices, for example, a collection plug-in 342 library outside the subsystem, or a plug-in generator, which may be outside the subsystem or inside the subsystem. In the case where the plug-in generating program is outside the subsystem, a user may generate a plug-in from the plug-in generating program and then transfer the plug-in to the subsystem. In the case where the plug-in generating program is in the subsystem, a user may generate a plug-in according to the plug-in generating program as the collection plug-in 342 of the subsystem. The above-mentioned calling of the collection plug-in 342 from the collection plug-in 342 library outside the subsystem or the generation of the plug-in according to the plug-in generation program may require a certain authority authentication, and may be executed when the authentication is passed. The plug-in generator may be a program of a subsystem, and the collection plug-in 342 is generated by the plug-in generator inside the subsystem. Therefore, acquisition of the acquisition plug-in 342 is realized from multiple channels in multiple aspects, so that acquisition of monitoring information is ensured, and the application range of subsystem monitoring and the system stability are improved.

Fig. 5 is a flowchart of another communication system monitoring method according to an embodiment of the present invention, as shown in fig. 5, according to another aspect of the embodiment of the present invention, there is also provided a communication system monitoring method, including the following steps:

step S502, receiving monitoring results of a plurality of subsystems of the communication system, wherein the monitoring results are generated by the local computing platform 34 of the subsystem according to the monitoring information of the subsystems, and the local computing platform 34 is used for acquiring the monitoring information of the subsystems, determining whether the subsystems are abnormal or not according to the monitoring information, and generating the monitoring results;

step S504, monitoring the communication system according to the monitoring results of the subsystems.

The execution subject of the above steps may be the cloud server 32. Through the steps, monitoring information of subsystems of a communication system is collected, wherein the communication system comprises a plurality of subsystems; determining whether the subsystem is abnormal or not through the monitoring information, and locally generating a monitoring result; send the monitoring result to cloud server 32, wherein, cloud server 32 is used for carrying out the mode of monitoring communication system according to the monitoring result of a plurality of subsystems, through gathering monitoring information at subsystem local, and monitor monitoring information, directly send the monitoring result to cloud server 32, the purpose of calculating at subsystem local has been reached, only send the monitoring result to cloud server 32, thereby realized reducing burden and resource occupation for cloud server 32, improve the technological effect of the treatment effeciency of cloud server 32, and then solved in the correlation technique data of a plurality of subsystems all convey the operation server and handle, lead to cloud server 32's wasting of resources, the burden is too high, and the technical problem that treatment effeciency is low.

The analyzing of the monitoring result may be determining the monitoring information and the processing flow of the monitoring information according to the monitoring result, and may execute corresponding operations according to the monitoring result when the monitoring result is confirmed. And the whole process can be determined and rechecked according to the monitoring result of backup storage when the system makes a change. Therefore, the reliability and traceability of the system are improved.

Optionally, before receiving the monitoring result for the plurality of subsystems of the communication system, the method includes: a set-up instruction is sent, wherein the set-up instruction is used to instruct the subsystem to set up the local computing platform 34. The local computing platform 34 is established on the subsystem, the subsystem is detected and locally analyzed, and the burden of the cloud server 32 is relieved.

The local computing platform 34 may be established by the cloud server 32 as needed. The cloud server 32 sends the establishment instruction to each subsystem, the establishment instruction includes an installation package and authentication information, and the local computing platform 34 is installed on the computer of the subsystem through the installation package under the condition that the subsystem verifies the establishment instruction, so that the purpose of establishing the local computing platform 34 in each subsystem is achieved.

Optionally, after monitoring the communication system according to the monitoring results of the multiple subsystems, the method includes: receiving a repair result sent by the local computing platform 34, wherein the subsystem is repaired under the condition of subsystem abnormality, the local computing platform 34 is further configured to collect monitoring information of the repaired subsystem, detect the repaired subsystem according to the monitoring information, and generate a repair result; and sending prompt information under the condition that the repair result is the repair failure result, wherein the prompt information is used for prompting the subsystem failure. The faults generated by the services are eliminated in an automatic and manual mode, and the reliability and effectiveness of fault elimination of the subsystem are improved.

Under the condition that the subsystem has no effect after automatically repairing the fault, the repairing result can be sent to the cloud server 32, and under the condition that the repairing fails, the cloud server 32 sends the fault information to the user, so that the fault generated by the service is eliminated in an automatic and manual mode, and the reliability and effectiveness of fault elimination of the subsystem are improved.

Optionally, after monitoring the communication system according to the monitoring results of the multiple subsystems, the method includes: receiving service characteristic information corresponding to the monitoring information sent by the local computing platform 34; calculating the service characteristic information and calculating the characteristic value of the service characteristic information; and sending the characteristic value to the subsystem, wherein the characteristic value is used for updating the characteristic library by the subsystem. The completeness of the feature library is improved, and the probability of repairing the fault through the feature library is improved. Thereby further improving the stability and reliability of the subsystem.

Data collected by the local computing platform 34 are fed back to the cloud server 32, the cloud server 32 processes the data to generate feature fingers, the feature fingers are sent to all subsystems, and the feature database of the local computing platform 34 is updated correspondingly by the subsystems, so that dynamic feedback is formed, the integrity of the feature database is improved, and the probability of repairing faults through the feature database is improved. Thereby further improving the stability and reliability of the subsystem.

It should be noted that this embodiment also provides an alternative implementation, and details of the alternative implementation are described below.

This embodiment has provided the marginal computing system under high-speed railway WIFI system scene, and the data of gathering are handled locally, through predetermined rule, and when the service appearance is unusual, can carry out intelligent restoration, only reports the high in the clouds monitoring server with the result of handling or the data that have handled.

The embodiment reduces the load and pressure of the cloud monitoring server; the bandwidth resource consumed by data transmission is saved, and the data processing efficiency is improved.

High-speed rails are generally divided into 8-grade and 16-grade, and in order to provide WIFI on the high-speed rails, a server needs to be placed in each carriage to serve the WIFI on the high-speed rails; if a certain service on the server is abnormal, normal operation of the high-speed rail WIFI may be affected, so that in order to guarantee normal operation of the high-speed rail WIFI, the service on each compartment server needs to be monitored, and once a fault occurs, automatic repair or manual repair needs to be performed.

The edge computing technology can analyze and aggregate edge data purposefully, and adopts a principle of nearby calculation to avoid sending all data to the cloud, so that network bandwidth is greatly saved and processing time is reduced.

Fig. 6 is a flowchart of a wifi system and a cloud server for edge computing according to an embodiment of the present invention, and as shown in fig. 6, there are three types of information to be monitored on a high-speed rail server, which are respectively:

1) system information, such as: CPU utilization rate, memory utilization rate, disk occupation rate, network card state and the like;

2) application services, refer to various programs running on a server, such as: providing a java program, an AP control program and the like for a user to open a network in a WIFI network;

3) streaming service refers to a program for providing streaming media.

The edge computing platform includes 4 major modules.

1) An acquisition module, configured to acquire service feature information, parse the service feature information into fixed format logs, and store the fixed format logs in the database 344; different acquisition items, a user can customize acquisition plug-ins; when a new acquisition item needs to be acquired, acquiring plug-in 342 corresponding to the acquisition item and pushing the acquisition plug-in to the edge computing platform; the number of the collection inserts 342 may be plural.

2) The database 344 is used for storing a log library of collected data and a feature library for storing feature items of each service, and the feature library is used for intelligently analyzing and repairing abnormal services;

3) a calculator 346 for performing intelligent analysis and diagnostics, the calculator 346 periodically extracting data from the database 344 and performing analysis. And if the abnormal service is found, processing the abnormal service. If an unknown anomalous service is found, it is reported to the cloud server 32 via the communication device 348.

4) And the communication device is used for interacting with the cloud server 32 and uploading data of the edge computing platform.

Fig. 7 is a flowchart of an analysis and diagnosis method according to an embodiment of the present invention, and as shown in fig. 7, the calculator 346 reads the collected information from the database 344, that is, the service characteristic information collected by the collection module, determines whether the corresponding service is normal according to the service characteristic information, and reads the collected information from the database 344 again when the service is normal. And in the case of abnormal service, analyzing abnormal service information, and repairing the abnormal service according to the characteristic library information. The repair results are finally updated into the database 344.

Fig. 8 is a flowchart of a data update method according to an embodiment of the present invention, and as shown in fig. 8, the extraction of the feature library depends on the collected data fed back by the edge computing platform and is prefabricated to the database 344 by the administrator. The steps of updating the feature library are as follows: when the abnormality that the current frame cannot be repaired occurs in the service, the collection plug-in 342 collects the characteristic information used for identifying the service, the communication device of the vehicle end reports the information to the cloud server 32, the cloud server 32 extracts the characteristic value according to the characteristic information, and the cloud end updates the characteristic value to the vehicle end characteristic library through the communication module.

Fig. 9 is a schematic diagram of a communication system monitoring device according to an embodiment of the present invention, as shown in fig. 9, according to another aspect of the embodiment of the present invention, there is also provided a communication system monitoring device, including: an acquisition module 92, a first monitoring module 94 and a transmission module 96, which are described in detail below.

An acquisition module 92, configured to acquire monitoring information of a subsystem of a communication system, where the communication system includes multiple subsystems; a first monitoring module 94, connected to the collecting module 92, for determining whether the subsystem is abnormal through the monitoring information, and generating a monitoring result locally; a sending module 96, connected to the first monitoring module 94, configured to send a monitoring result to the cloud server 32, where the cloud server 32 is configured to monitor the communication system according to the monitoring results of the multiple subsystems.

By the device, the monitoring information of the subsystems of the communication system is acquired by the acquisition module 92, wherein the communication system comprises a plurality of subsystems; the first monitoring module 94 determines whether the subsystem is abnormal or not through the monitoring information, and generates a monitoring result locally; the sending module 96 sends the monitoring result to the cloud server 32, wherein the cloud server 32 is used for monitoring the communication system according to the monitoring result of the subsystems, the monitoring information is locally collected through the subsystems, the monitoring information is monitored, the monitoring result is directly sent to the cloud server 32, the purpose of locally calculating the subsystem is achieved, the monitoring result is only sent to the cloud server 32, the purposes of reducing the burden and the resource occupation of the cloud server 32 are achieved, the technical effect of improving the processing efficiency of the cloud server 32 is achieved, and the technical problems that in the related technology, the data of the subsystems are all sent to the operation server to be processed, the resource waste of the cloud server 32 is caused, the burden is too high, and the processing efficiency is low are solved.

Fig. 10 is a schematic diagram of another communication system monitoring device according to an embodiment of the present invention, as shown in fig. 10, according to another aspect of the embodiment of the present invention, there is also provided a communication system monitoring device, including: a receiving module 102 and a second monitoring module 104, which are described in detail below.

The receiving module 102 is configured to receive monitoring results of multiple subsystems of the communication system, where the monitoring results are monitoring results generated by the local computing platform 34 of the subsystem according to monitoring information of the subsystems, where the local computing platform 34 is configured to acquire the monitoring information of the subsystems, determine whether the subsystems are abnormal according to the monitoring information, and generate the monitoring results; and the second monitoring module 104 is connected to the receiving module 102, and is configured to monitor the communication system according to the monitoring results of the multiple subsystems.

By the device, the receiving module 102 is adopted to receive monitoring results of a plurality of subsystems of the communication system, wherein the monitoring results are generated by the subsystem local computing platform 34 according to monitoring information of the subsystems, the local computing platform 34 is used for acquiring the monitoring information of the subsystems, and whether the subsystems are abnormal or not is determined by the monitoring information to generate the monitoring results; the second monitoring module 104 monitors the communication system according to the monitoring results of the subsystems, monitor information locally through the subsystems, monitor the monitoring information, directly send the monitoring results to the cloud server 32, the purpose of locally calculating the subsystems is achieved, and only the monitoring results are sent to the cloud server 32, so that the burden and the resource occupation of the cloud server 32 are reduced, the technical effect of improving the processing efficiency of the cloud server 32 is achieved, and the problem that in the related art, the data of the subsystems are all sent to the operation server to be processed, the resource waste of the cloud server 32 is caused, the burden is too high, and the processing efficiency is low is solved.

According to another aspect of the embodiments of the present invention, there is provided a storage medium, the storage medium includes a stored program, wherein when the program runs, the device where the storage medium is located is controlled to execute the communication system monitoring method of any one of the above.

According to another aspect of the embodiments of the present invention, there is provided a processor, the processor is configured to run a program, wherein the communication system monitoring method of any one of the above is performed when the program is running.

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

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another communication system, or some features may be omitted or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A monitoring system for a communication system, comprising: the cloud server is respectively arranged on a plurality of local computing platforms of a plurality of subsystems of the communication system;

the local computing platform comprises a collection plug-in, a database, a calculator and a communication device;

the acquisition plug-in is in data connection with the database and is used for acquiring monitoring information of the subsystem;

the database is in data connection with the calculator and is used for storing the monitoring information acquired by the acquisition plug-in;

the calculator is in data connection with the communication device and is used for analyzing the monitoring information, determining whether the monitoring information is abnormal or not and generating a monitoring result, wherein the abnormal monitoring result is generated under the condition that the monitoring information is abnormal, and the normal monitoring result is generated under the condition that the monitoring information is normal;

the communication device is in data connection with the cloud server, and is used for the local computing platform to perform remote communication with the cloud server and send the monitoring result to the cloud server;

and the cloud server is in data connection with the communication devices of the local computing platforms and is used for monitoring the communication system according to the monitoring results of the subsystems.

2. The system of claim 1, wherein the cloud server comprises: a communication module, a display module;

the communication module is in data connection with the communication device of the local computing platform;

the display module is in data connection with the communication module and is used for displaying data sent by the local computing platform and received by the communication module, wherein the data comprises at least one of the following data: monitoring results of the subsystem.

3. The system of claim 1, wherein the database comprises a feature library for storing feature data for repairing the subsystem.

4. The system of claim 3, wherein the local computing platform further comprises a failover module,

the fault repairing module is used for calling the feature data of the feature library under the condition that the monitoring information of the subsystem is monitored to be abnormal, repairing the fault corresponding to the monitoring information abnormality and generating a repairing result;

after the subsystem is repaired, collecting monitoring information of the repaired subsystem; and detecting the repaired subsystem according to the monitoring information to generate a repair result, wherein a repair failure result is generated when the monitoring information is detected to be abnormal, and a repair success result is generated when the monitoring information is detected to be normal.

5. The system of claim 1, wherein the monitoring information comprises at least one of: system information, application service information, streaming media service information;

the system information includes at least one of: CPU utilization rate, memory utilization rate, disk occupation rate and network card state.

6. The system of claim 1, wherein the number of collection inserts is plural,

the acquisition plug-ins are respectively used for acquiring different monitoring information and are stored in the acquisition module, wherein the acquisition module is used for selecting corresponding acquisition plug-ins according to the monitoring information to be monitored, and acquiring the monitoring information according to the acquisition plug-ins.

7. The system of claim 1, wherein the cloud server further comprises a user interaction module,

the user interaction module is used for receiving an operation instruction of a user and executing the operation instruction, wherein the operation instruction comprises a setup instruction for instructing the subsystem to set up the local computing platform.

8. The system of claim 1, wherein the cloud server further comprises a monitoring module,

the monitoring module is used for monitoring the communication system according to the monitoring results of the subsystems.

9. The system of claim 3 or 4, wherein the local computing platform further comprises: the updating module is used for updating the data of the data storage module,

the updating module is in data connection with the communication device and is used for updating the feature library of the subsystem according to a feature value of service feature information corresponding to the monitoring information, wherein the feature value is sent by the cloud server and received by the communication device.

10. The system of claim 1, wherein the communication system is a train communication system,

the plurality of subsystems are respectively arranged on different carriages of the train, and the local computing platform is also arranged on the carriage where the corresponding subsystem is located.

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