CN114510402A - System application level performance monitoring system and method - Google Patents

Abstract

The invention discloses a performance monitoring system of a system application layer, which is in bidirectional connection with an application system and comprises an automatic monitoring center, a timing monitoring center, a manual monitoring center, a problem summarizing module, a processor, a solution generating module, a personal center, a communication unit and a mobile terminal, wherein the automatic monitoring center is connected with the application system; the automatic monitoring center, the timing monitoring center and the manual monitoring center are all connected with an application system, the problem summarizing module is respectively connected with the automatic monitoring center, the timing monitoring center, the manual monitoring center and the processor, the solution generating module is respectively connected with the processor and the personal center, the communication unit is respectively connected with the personal center and the mobile terminal in a bidirectional mode, and the personal center is also connected with the timing monitoring center. The invention can adopt three modes of automation, timing and manual operation to monitor the performance of the application system, can monitor according to the actual situation of the application system, has more reasonable work distribution, reduces the workload of the performance monitoring system and greatly improves the monitoring efficiency.

Description

System application level performance monitoring system and method

Technical Field

The invention relates to the technical field of system performance monitoring, in particular to a system and a method for monitoring performance of a system application level.

Background

With the continuous popularization of various application systems, performance monitoring systems are becoming more and more important, the running conditions of the application systems can be known in real time through the performance monitoring systems, and corresponding processing schemes can be made according to the running conditions of the application systems in time. The flow of the performance monitoring system of the system application level is mainly as follows: front-end statistics, timing monitoring of statistical information VS multiple points of a real environment, and visualization of rear-end log data; the method is mainly used for simply building a simple monitoring system from the consideration of business requirement scenes and cost. The existing performance monitoring systems are various, but the performance of the system needs to be tracked in real time to ensure that the investment hardware, the virtualization strategy or the private cloud cost are worth. Today, the environment of mixed application of physical and virtualization technologies is increasing, and various virtual machine managers make the selection of a proper performance monitoring system more complicated.

At present, most of the existing performance monitoring systems have the same processing mode, most of the existing performance monitoring systems automatically monitor the system, the overall effect is not good, the main reason is that the automatically monitored data are limited, the system mainly monitors the network speed and the memory condition of the system, in the daily use process, some necessary data need to be automatically monitored, and other data can be monitored regularly or manually, so that the workload of the performance monitoring system can be reduced through reasonable distribution, and the monitoring efficiency is increased through positive processing. Therefore, there is a need for an improved performance monitoring system that improves the classification monitoring and monitoring efficiency of the performance monitoring system.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a system and a method for monitoring the performance of a system application level.

First, the present invention provides a performance monitoring system of system application layer, the performance monitoring system and the application system realize bidirectional connection, including: the system comprises an automatic monitoring center, a timing monitoring center, a manual monitoring center, a problem summarizing module, a processor, a solution generating module, a personal center, a communication unit and a mobile terminal; the system comprises an automatic monitoring center, a timing monitoring center and a manual monitoring center, wherein the automatic monitoring center, the timing monitoring center and the manual monitoring center are all connected with an application system, a problem summarizing module is respectively connected with the automatic monitoring center, the timing monitoring center, the manual monitoring center and a processor, a solution generating module is respectively connected with the processor and the personal center, a communication unit is respectively connected with the personal center and a mobile terminal in a two-way mode, the personal center is also connected with the timing monitoring center, the automatic monitoring center is used for carrying out automatic fluency monitoring and virus monitoring on the application system, the timing monitoring center is used for carrying out timed memory monitoring on the application system, the manual monitoring center is used for carrying out manual system back-end program monitoring on the application system, and the problem summarizing module summarizes problems reported by the automatic monitoring center, the timing monitoring center and the manual monitoring center and transmits the problems to the processor, the processor is used for matching with the solution generating module to generate a solution of a problem, the personal center is used for storing the solution transmitted by the solution generating module, triggering the to-be-processed item corresponding to the solution and changing the timing monitoring time of the timing monitoring center, the communication unit is used for transmitting the to-be-processed item reported by the personal center to the mobile terminal, and the mobile terminal is used for a user to check the to-be-processed item so as to remind the user of solving the problem in time.

Further, the automatic monitoring center comprises a fluency monitoring module and a virus monitoring module; the fluency monitoring module and the virus monitoring module are both connected with the application system, the output ends of the fluency monitoring module and the virus monitoring module are both connected with the input end of the problem summarizing module, the fluency monitoring module is used for automatically monitoring fluency of the application system, and the virus monitoring module is used for automatically monitoring viruses of the application system;

the fluency monitoring module comprises an information transmission detection unit and a system processing speed detection unit; the input ends of the information transmission detection unit and the system processing speed detection unit are connected with the application system, the output ends of the information transmission detection unit and the system processing speed detection unit are connected with the problem summarizing module, the information transmission detection unit is used for collecting the information transmission speed of the application system to realize automatic information transmission speed monitoring, and the system processing speed detection unit is used for collecting the processing speed of the application system to realize automatic processing speed monitoring;

the virus monitoring module comprises a file scanning unit, a problem file acquisition unit, an analysis and judgment unit, a virus searching and killing unit and a virus database; the input end of the file scanning unit is connected with the application system, the output end of the file scanning unit is respectively connected with the input ends of the problem summarizing module and the problem file collecting unit, the input end of the problem file collecting unit is also connected with the application system, the output end of the problem file collecting unit is connected with the input end of the analysis judging unit, the output end of the analysis judging unit is respectively connected with the input ends of the problem summarizing module and the virus searching and killing unit, the output end of the virus database is connected with the application system, the virus database is also in bidirectional connection with the virus database, the file scanning unit is used for omni-directionally scanning files of the application system and transmitting problem file scanning results to the problem file collecting unit, and the problem file collecting unit is used for collecting corresponding problem files according to the problem file scanning results and collecting the collected problem files The problem files are transmitted to the analysis and judgment unit for judgment, the analysis and judgment unit is used for judging the problem files and feeding back virus judgment results to the virus searching and killing unit, and the virus searching and killing unit is used for searching and killing viruses for corresponding problem files according to the virus judgment results.

Furthermore, the timing monitoring center comprises a system memory monitoring module; the system memory monitoring module is connected with the application system in a bidirectional mode, the output end of the system memory monitoring module is also connected with the problem summarizing module, and the system memory monitoring module is used for monitoring the memory of the application system in a timing mode;

the system memory monitoring module comprises a repeated file detection unit, a garbage file detection unit and an overtime file detection unit; the duplicate file detection unit, the junk file detection unit and the overtime file detection unit are all bidirectionally connected with the application system, the input ends of the repeated file detection unit, the junk file detection unit and the overtime file detection unit are all connected with the output end of the personal center, and the output ends of the duplicate file detection unit, the junk file detection unit and the overtime file detection unit are all connected with the problem summarizing module, the duplicate file detection unit is used for regularly collecting duplicate files in the memory of the application system and processing the duplicate files, the junk file detection unit is used for collecting junk files in a timing manner from the memory of the application system and processing the junk files, the overtime file detection unit is used for collecting overtime files of the memory of the application system in a timing mode and processing the overtime files.

Furthermore, the manual monitoring center comprises a system back-end program monitoring module; the input end of the system back-end program monitoring module is connected with the application system, the output end of the system back-end program monitoring module is connected with the input end of the problem summarizing module, and the system back-end program monitoring module is used for manually monitoring the system back-end program of the application system.

Further, the communication unit includes any one of a wireless communication unit, a bluetooth communication unit, or a base station communication unit.

Secondly, the invention also provides a performance monitoring method of the system application level, which is characterized by comprising the following steps:

s1, automatically monitoring fluency and virus of the application system through the automatic monitoring center after the application system runs, regularly monitoring the memory of the application system through the timing monitoring center, and manually monitoring the back-end program of the application system through the manual monitoring center;

s2, problems reported by the automatic monitoring center, the timing monitoring center and the manual monitoring center are classified and summarized through the problem summarizing module and are transmitted to the processor, the processor is matched with the solution generating module to generate a solution of the problems, and the generated solution is transmitted to the personal center through the solution generating module;

and S3, after receiving the solution transmitted by the solution generating module, the personal center triggers the corresponding to-be-processed item and reports the to-be-processed item to the communication unit, and the to-be-processed item is transmitted to the mobile terminal through the communication unit to remind a user of solving the problem in time.

Further, the fluency monitoring is realized by the following steps: collecting the information transmission speed of the application system through an information transmission detection unit of an automatic monitoring center to realize information transmission speed monitoring in fluency monitoring, and simultaneously collecting the processing speed of the application system through a system processing speed detection unit of the automatic monitoring center to realize processing speed monitoring in fluency monitoring;

the virus monitoring is realized by the following steps: the files of the application system are automatically scanned in an all-around manner through a file scanning unit of an automatic monitoring center, the problem files are collected through a problem file collecting unit of the automatic monitoring center after the scanning is finished, the problem files are judged through an analysis judging unit of the automatic monitoring center, and after the problem files are judged to be virus files, virus checking and killing are carried out through a virus checking and killing unit of the automatic monitoring center;

the memory monitoring is realized by the following steps: the method comprises the steps that a repeated file detection unit of a timing monitoring center is used for collecting repeated files of a memory of an application system in a timing mode and processing the repeated files, a junk file detection unit of the timing monitoring center is used for collecting junk files of the memory of the application system in a timing mode and processing the junk files, and an overtime file detection unit of the timing monitoring center is used for collecting overtime files of the memory of the application system in a timing mode and processing the overtime files;

the implementation mode of the system back-end program monitoring is as follows: and manually monitoring the system back-end program of the application system through a system back-end program monitoring module of the manual monitoring center.

By adopting the scheme, the invention has the following beneficial effects:

1. the invention comprises an automatic monitoring center, a timing monitoring center and a manual monitoring center, can monitor the performance of the application system by adopting three modes of automation, timing and manual, has more reasonable work distribution, reduces the workload of the performance monitoring system, greatly improves the monitoring efficiency, can monitor according to the actual condition of the application system, has simpler operation, can generate a corresponding solution when finding problems and remind a user of timely processing, and ensures the normal operation of the system.

2. The application of the virus database in the optimized scheme ensures that the whole virus control system has good virus control effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a block diagram of a system for monitoring performance at a system application level according to the present invention;

FIG. 2 is a schematic block diagram of a virus monitoring module according to the present invention;

FIG. 3 is a schematic block diagram of a system memory monitoring module according to the present invention;

fig. 4 is a flowchart illustrating steps of a method for monitoring performance of a system application layer according to the present invention.

In the figure: 1-application system, 2-performance monitoring system, 21-automatic monitoring center, 211-fluency monitoring module, 2111-information transmission detection unit, 2112-system processing speed detection unit, 212-virus monitoring module, 2121-file scanning unit, 2122-problem file acquisition unit, 2123-analysis determination unit, 2124-virus killing unit, 2125-virus database, 22-timing monitoring center, 221-system memory monitoring module, 2211-repeated file detection unit, 2212-garbage file detection unit, 2213-overtime file detection unit, 23-manual monitoring center, 231-system back-end program monitoring module, 24-problem summarizing module, 25-processor, 26-solution generation module, 27-personal center, 28-communication unit, 29-mobile terminal.

The implementation, functional features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

First, referring to fig. 1 to fig. 3, the present invention provides a performance monitoring system in a system application layer, where the performance monitoring system 2 is in bidirectional connection with an application system 1, and is used to monitor the performance of the application system 1; the performance monitoring system 2 includes: an automatic monitoring center 21, a timing monitoring center 22, a manual monitoring center 23, a problem summarizing module 24, a processor 25, a solution generating module 26, a personal center 27, a communication unit 28 and a mobile terminal 29, wherein the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 are all connected with the application system 1, the output ends of the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 are all connected with the input end of the problem summarizing module 24, the output end of the problem summarizing module 24 is connected with the input end of the processor 25, the output end of the processor 25 is connected with the input end of the solution generating module 26, the processor 25 is further connected with a large database, the output end of the solution generating module 26 is connected with the input end of the personal center 27, the output end of the personal center 27 is connected with the input end of the timing monitoring center 22, the personal center 27 is also in bidirectional connection with the communication unit 28, and the communication unit 28 is also in bidirectional connection with the mobile terminal 29; that is to say, the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 are all connected to the application system 1, the problem summarizing module 24 is respectively connected to the automatic monitoring center 21, the timing monitoring center 22, the manual monitoring center 23 and the processor 25, the solution generating module 26 is respectively connected to the processor 25 and the personal center 27, the processor 25 is further connected to a large database, the communication unit 28 is respectively connected to the personal center 27 and the mobile terminal 29 in a bidirectional manner, the personal center 27 is further connected to the timing monitoring center 22, the automatic monitoring center 21 is used for performing automatic fluency monitoring and virus monitoring on the application system 1, the timing monitoring center 22 is used for performing timed memory monitoring on the application system 1, the manual monitoring center 23 is used for performing manual system backend program monitoring on the application system 1, the problem summarizing module 24 classifies and summarizes the problems reported by the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 and transmits the problems to the processor 25, the processor 25 is used for cooperating with the solution generating module 26 to generate a solution of the problem, the solution is transmitted to the personal center 27 through the solution generating module 26 to be stored, the personal center 27 is used for storing the solution transmitted by the solution generating module 26, triggering the to-be-processed item corresponding to the solution and manually changing the timing monitoring time of the timing monitoring center 22, the to-be-processed item is reported to the communication unit 28 through the personal center 27, the communication unit 28 is used for transmitting the to-be-processed item reported by the personal center 27 to the mobile terminal 29, the mobile terminal 29 is used for the user to check the to-be-processed item so as to remind the user to solve the problem in time; it should be noted that the problem summarizing module 24 is a classification module inside the performance monitoring system, and can classify and summarize the information transmitted from the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 according to a program set inside; the personal center 27 is an information transfer module inside the performance monitoring system 2, and can store and backup information well, and can also automatically trigger to-be-processed items, so that a user can search the previously stored information through the personal center 27 after logging in the performance monitoring system 2, thereby effectively preventing file loss.

Further, the air conditioner is provided with a fan,

the automatic monitoring center 21 includes a fluency monitoring module 211 and a virus monitoring module 212, both the fluency monitoring module 211 and the virus monitoring module 212 are connected to the application system 1, and output ends of both the fluency monitoring module 211 and the virus monitoring module 212 are connected to an input end of the problem summarizing module 24, the fluency monitoring module 211 is configured to perform automatic fluency monitoring on the application system 1, and the virus monitoring module 212 is configured to perform automatic virus monitoring on the application system 1;

the fluency monitoring module 211 comprises an information transmission detection unit 2111 and a system processing speed detection unit 2112, wherein the input ends of the information transmission detection unit 2111 and the system processing speed detection unit 2112 are both connected with the application system 1, the output ends of the information transmission detection unit 2111 and the system processing speed detection unit 2112 are both connected with the problem summarizing module 24, the information transmission detection unit 2111 is used for collecting the information transmission speed of the application system 1 to realize automatic information transmission speed monitoring, and the system processing speed detection unit 2112 is used for collecting the processing speed of the application system 1 to realize automatic processing speed monitoring; that is, in actual operation, the information transmission speed of the application system 1 is acquired by the information transmission detection unit 2111, so that the automatic monitoring of the information transmission speed of the application system 1 is realized, and the processing speed of the application system 1 is acquired by the system processing speed detection unit 2112, so that the automatic monitoring of the processing speed of the application system 1 is realized;

the virus monitoring module 212 includes a file scanning unit 2121, a problem file collecting unit 2122, an analyzing and determining unit 2123, a virus searching and killing unit 2124, and a virus database 2125, wherein an input end of the file scanning unit 2121 is connected to the application system 1, an output end of the file scanning unit 2121 is connected to input ends of the problem summarizing module 24 and the problem file collecting unit 2122, an input end of the problem file collecting unit 2122 is further connected to the application system 1, an output end of the problem file collecting unit 2122 is connected to an input end of the analyzing and determining unit 2123, an output end of the analyzing and determining unit 2123 is connected to input ends of the problem summarizing module 24 and the virus searching and killing unit 2124, an output end of the virus database 2125 is connected to the application system 1, and the virus database 2125 is further connected to the virus database 2125 in a bidirectional manner, the file scanning unit 2121 is configured to perform omni-directional automatic scanning on a file of the application system 1 and transmit a problem file scanning result to the problem file acquisition unit 2122, the problem file acquisition unit 2122 is configured to acquire a corresponding problem file according to the problem file scanning result transmitted by the file scanning unit 2121 and transmit the acquired problem file to the analysis determination unit 2123 for determination, the analysis determination unit 2123 is configured to determine the problem file transmitted by the problem file acquisition unit 2122 and feed back a virus determination result to the virus killing unit 2124, and the virus killing unit 2124 is configured to perform virus killing on the corresponding problem file according to the virus determination result transmitted by the analysis determination unit 2123; that is, in actual operation, the file of the application system 1 is scanned in all directions by the file scanning unit 2121, after the scanning is completed, the problem file is collected by the problem file collecting unit 2122, the problem file is judged by the analysis and judgment module, and after the problem file is confirmed to be a virus file, the virus searching and killing unit 2124 searches and kills the virus on the problem file.

The timing monitoring center 22 includes a system memory monitoring module 221, the system memory monitoring module 221 is connected to the application system 1 in a bidirectional manner, an output end of the system memory monitoring module 221 is further connected to the problem summarizing module 24, and the system memory monitoring module 221 is configured to perform timing memory monitoring on the application system 1;

the system memory monitoring module 221 includes a duplicate file detection unit 2211, a garbage file detection unit 2212 and a timeout file detection unit 2213, the duplicate file detection unit 2211, the garbage file detection unit 2212 and the timeout file detection unit 2213 are all bidirectionally connected to the application system 1, the input ends of the duplicate file detection unit 2211, the garbage file detection unit 2212 and the timeout file detection unit 2213 are all connected to the output end of the personal center 27, the output ends of the duplicate file detection unit 2211, the garbage file detection unit 2212 and the timeout file detection unit 2213 are all connected to the problem summarizing module 24, the duplicate file detection unit 2211 is used for performing timed duplicate file collection on the memory of the application system 1 and processing the duplicate files, the garbage file detection unit 2212 is used for performing timed garbage file collection on the memory of the application system 1 and processing the garbage files, the timeout file detecting unit 2213 is configured to perform timed timeout file acquisition on the memory of the application system 1 and process the timeout file; that is, in actual operation, the duplicate file detection unit 2211, the garbage file detection unit 2212 and the timeout file detection unit 2213 perform timed data acquisition on the memory of the application system 1, and the duplicate file detection unit 2211, the garbage file detection unit 2212 and the timeout file detection unit 2213 respectively perform processing on the acquired duplicate files, garbage files and timeout files, and the user can manually change the timing monitoring time of the duplicate file detection unit 2211, the garbage file detection unit 2212 and the timeout file detection unit 2213 through the personal center 27.

The manual monitoring center 23 includes a system back-end program monitoring module 231, an input end of the system back-end program monitoring module 231 is connected to the application system 1, an output end of the system back-end program monitoring module 231 is connected to an input end of the problem summarizing module 24, and the system back-end program monitoring module 231 is configured to manually monitor a system back-end program of the application system 1.

The communication unit 28 includes any one of a wireless communication unit, a bluetooth communication unit, or a base station communication unit;

the principle of classifying and summarizing the information transmitted from the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 according to the internally set program is as follows: the fluency monitoring module 211 in the automatic monitoring center 21 detects fluency problems of the system, the virus monitoring module 212 detects virus problems of the system, the monitored problems are transmitted to the problem summarizing module 24, the system memory monitoring module 221 in the timing monitoring center 22 monitors memory problems of the system and then transmits the memory problems to the problem summarizing module 24, the system back-end program monitoring module 231 in the manual monitoring center 23 also transmits the monitored problems to the problem summarizing module 24, so that the problem summarizing module 24 classifies the uploaded problems according to fluency, viruses, system memory and several blocks at the back end of the system and integrates all the uploaded problems, the solution generating module 26 outputs solutions for solving the problems according to the solutions provided by the processor 25 after the processor 25 finds corresponding solutions according to the problems formed by the problem summarizing module 24, since the processor 25 stores therein solutions for various problems in advance and the large database can provide the processor 25 with the support for the solutions, it is ensured that various problems can be handled.

Referring to fig. 4, the present invention further provides a system application level performance monitoring method, which includes the following steps:

s1, after the application system 1 runs, performing automatic fluency monitoring and virus monitoring on the application system 1 through the automatic monitoring center 21, performing timed memory monitoring on the application system 1 through the timing monitoring center 22, and performing manual system backend program monitoring on the application system 1 through the manual monitoring center 23; further, the fluency monitoring in step S1 is implemented by: the information transmission speed of the application system 1 is acquired through the information transmission detection unit 2111 of the automatic monitoring center 21 to realize information transmission speed monitoring in fluency monitoring, and meanwhile, the processing speed of the application system 1 is acquired through the system processing speed detection unit 2112 of the automatic monitoring center 21 to realize processing speed monitoring in fluency monitoring; the implementation manner of the virus monitoring described in step S1 is: the files of the application system 1 are automatically scanned in all directions through a file scanning unit 2121 of the automatic monitoring center 21, the problem files are collected through a problem file collecting unit 2122 of the automatic monitoring center 21 after the scanning is finished, the problem files are judged through an analysis judging unit 2123 of the automatic monitoring center 21, and after the problem files are judged to be virus files, the viruses are searched and killed through a virus searching and killing unit 2124 of the automatic monitoring center 21; the implementation manner of the memory monitoring described in step S1 is: the method comprises the steps of performing timed repeated file collection on the memory of the application system 1 through a repeated file detection unit 2211 of a timed monitoring center 22 and processing the repeated files, performing timed garbage file collection on the memory of the application system 1 through a garbage file detection unit 2212 of the timed monitoring center 22 and processing the garbage files, and performing timed overtime file collection on the memory of the application system 1 through an overtime file detection unit 2213 of the timed monitoring center 22 and processing the overtime files; the implementation manner of the system backend program monitoring described in step S1 is: the system back-end program of the application system 1 is manually monitored through a system back-end program monitoring module 231 of the manual monitoring center 23;

s2, the problem summarizing module 24 classifies and summarizes the problems reported by the automatic monitoring center 21, the timing monitoring center 22 and the manual monitoring center 23 and transmits the problems to the processor 25, the processor 25 cooperates with the solution generating module 26 to generate a solution of the problems, and the solution generating module 26 transmits the generated solution to the personal center 27;

s3, after the personal center 27 receives the solution transmitted from the solution generating module 26, it triggers the corresponding to-be-processed item and reports the to-be-processed item to the communication unit 28, after the solution generating module 26 generates the solution, the personal center 27 will generate a solution with some memory files that can be cleared if there is too much memory according to the generated solution, and these memory files that can be cleared generate the to-be-processed item, and transmit the to-be-processed item to the mobile terminal 29 through the communication unit 28, thereby reminding the user to solve the problem in time.

It should be noted that the contents not described in detail in the present specification belong to the prior art known to those skilled in the art.

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

1. the invention comprises an automatic monitoring center, a timing monitoring center and a manual monitoring center, can monitor the performance of the application system by adopting three modes of automation, timing and manual, has more reasonable work distribution, reduces the workload of the performance monitoring system, greatly improves the monitoring efficiency, can monitor according to the actual condition of the application system, has simpler operation, can generate a corresponding solution when finding problems and remind a user of timely processing, and ensures the normal operation of the system.

2. The application of the virus database in the optimized scheme ensures that the whole virus control system has good virus control effect.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A system application level performance monitoring system, which realizes bidirectional connection with an application system, is characterized by comprising: the system comprises an automatic monitoring center, a timing monitoring center, a manual monitoring center, a problem summarizing module, a processor, a solution generating module, a personal center, a communication unit and a mobile terminal; the system comprises an automatic monitoring center, a timing monitoring center and a manual monitoring center, wherein the automatic monitoring center, the timing monitoring center and the manual monitoring center are all connected with an application system, a problem summarizing module is respectively connected with the automatic monitoring center, the timing monitoring center, the manual monitoring center and a processor, a solution generating module is respectively connected with the processor and the personal center, a communication unit is respectively connected with the personal center and a mobile terminal in a two-way mode, the personal center is also connected with the timing monitoring center, the automatic monitoring center is used for carrying out automatic fluency monitoring and virus monitoring on the application system, the timing monitoring center is used for carrying out timed memory monitoring on the application system, the manual monitoring center is used for carrying out manual system back-end program monitoring on the application system, and the problem summarizing module summarizes problems reported by the automatic monitoring center, the timing monitoring center and the manual monitoring center and transmits the problems to the processor, the processor is used for matching with the solution generating module to generate a solution of a problem, the personal center is used for storing the solution transmitted by the solution generating module, triggering the to-be-processed item corresponding to the solution and changing the timing monitoring time of the timing monitoring center, the communication unit is used for transmitting the to-be-processed item reported by the personal center to the mobile terminal, and the mobile terminal is used for a user to check the to-be-processed item so as to remind the user of solving the problem in time.

2. The system application level performance monitoring system of claim 1, wherein the automatic monitoring center comprises a fluency monitoring module and a virus monitoring module; the fluency monitoring module and the virus monitoring module are both connected with the application system, the output ends of the fluency monitoring module and the virus monitoring module are both connected with the input end of the problem summarizing module, the fluency monitoring module is used for carrying out automatic fluency monitoring on the application system, and the virus monitoring module is used for carrying out automatic virus monitoring on the application system.

3. The system application level performance monitoring system of claim 2, wherein the fluency monitoring module comprises an information transmission detection unit and a system processing speed detection unit; the input ends of the information transmission detection unit and the system processing speed detection unit are connected with the application system, the output ends of the information transmission detection unit and the system processing speed detection unit are connected with the problem summarizing module, the information transmission detection unit is used for collecting the information transmission speed of the application system to realize automatic information transmission speed monitoring, and the system processing speed detection unit is used for collecting the processing speed of the application system to realize automatic processing speed monitoring.

4. The system application level performance monitoring system of claim 2, wherein the virus monitoring module comprises a file scanning unit, a problem file collecting unit, an analysis and judgment unit, a virus searching and killing unit and a virus database; the input end of the file scanning unit is connected with the application system, the output end of the file scanning unit is respectively connected with the input ends of the problem summarizing module and the problem file collecting unit, the input end of the problem file collecting unit is also connected with the application system, the output end of the problem file collecting unit is connected with the input end of the analysis judging unit, the output end of the analysis judging unit is respectively connected with the input ends of the problem summarizing module and the virus searching and killing unit, the output end of the virus database is connected with the application system, the virus database is also in bidirectional connection with the virus database, the file scanning unit is used for omni-directionally scanning files of the application system and transmitting problem file scanning results to the problem file collecting unit, and the problem file collecting unit is used for collecting corresponding problem files according to the problem file scanning results and collecting the collected problem files The analysis and judgment unit is used for judging the problem files and feeding back virus judgment results to the virus searching and killing unit, and the virus searching and killing unit is used for searching and killing viruses for corresponding problem files according to the virus judgment results.

5. The system application level performance monitoring system of claim 1, wherein the timing monitoring center comprises a system memory monitoring module; the system memory monitoring module is connected with the application system in a bidirectional mode, the output end of the system memory monitoring module is further connected with the problem summarizing module, and the system memory monitoring module is used for performing timed memory monitoring on the application system.

6. The system for monitoring performance of an application layer of a system according to claim 5, wherein the system memory monitoring module comprises a duplicate file detection unit, a garbage file detection unit, and an overtime file detection unit; the duplicate file detection unit, the junk file detection unit and the overtime file detection unit are all bidirectionally connected with the application system, the input ends of the repeated file detection unit, the junk file detection unit and the overtime file detection unit are all connected with the output end of the personal center, and the output ends of the duplicate file detection unit, the junk file detection unit and the overtime file detection unit are all connected with the problem summarizing module, the duplicate file detection unit is used for regularly collecting duplicate files in the memory of the application system and processing the duplicate files, the junk file detection unit is used for collecting junk files in a timing manner from the memory of the application system and processing the junk files, the overtime file detection unit is used for collecting overtime files of the memory of the application system in a timing mode and processing the overtime files.

7. The system application level performance monitoring system of claim 1, wherein the manual monitoring center comprises a system backend program monitoring module; the input end of the system back-end program monitoring module is connected with the application system, the output end of the system back-end program monitoring module is connected with the input end of the problem summarizing module, and the system back-end program monitoring module is used for manually monitoring the system back-end program of the application system.

8. The system application level performance monitoring system of claim 1, wherein the communication unit comprises any one of a wireless communication unit, a bluetooth communication unit, or a base station communication unit.

9. A system application level performance monitoring method is characterized by comprising the following steps:

s1, automatically monitoring fluency and virus of the application system through the automatic monitoring center after the application system runs, regularly monitoring the memory of the application system through the timing monitoring center, and manually monitoring the back-end program of the application system through the manual monitoring center;

s2, problems reported by the automatic monitoring center, the timing monitoring center and the manual monitoring center are classified and summarized through the problem summarizing module and are transmitted to the processor, the processor is matched with the solution generating module to generate a solution of the problems, and the generated solution is transmitted to the personal center through the solution generating module;

and S3, after receiving the solution transmitted by the solution generating module, the personal center triggers the corresponding to-be-processed item and reports the to-be-processed item to the communication unit, and the to-be-processed item is transmitted to the mobile terminal through the communication unit to remind a user of solving the problem in time.

10. The method of system application level performance monitoring according to claim 9, wherein the fluency monitoring is implemented by: collecting the information transmission speed of the application system through an information transmission detection unit of an automatic monitoring center to realize information transmission speed monitoring in fluency monitoring, and simultaneously collecting the processing speed of the application system through a system processing speed detection unit of the automatic monitoring center to realize processing speed monitoring in fluency monitoring;

the virus monitoring is realized by the following steps: the files of the application system are automatically scanned in an all-around manner through a file scanning unit of an automatic monitoring center, the problem files are collected through a problem file collecting unit of the automatic monitoring center after the scanning is finished, the problem files are judged through an analysis judging unit of the automatic monitoring center, and after the problem files are judged to be virus files, virus checking and killing are carried out through a virus checking and killing unit of the automatic monitoring center;

the memory monitoring is realized by the following steps: the method comprises the steps that a repeated file detection unit of a timing monitoring center is used for collecting repeated files of a memory of an application system in a timing mode and processing the repeated files, a junk file detection unit of the timing monitoring center is used for collecting junk files of the memory of the application system in a timing mode and processing the junk files, and an overtime file detection unit of the timing monitoring center is used for collecting overtime files of the memory of the application system in a timing mode and processing the overtime files;

the implementation mode of the system back-end program monitoring is as follows: and manually monitoring the system back-end program of the application system through a system back-end program monitoring module of the manual monitoring center.

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