CN115061839A - High-performance platform monitoring operation and maintenance system and method - Google Patents

Abstract

The invention discloses a high-performance platform monitoring operation and maintenance system, which comprises an automatic inspection module, an alarm module, a server operation and maintenance module, a monitoring fault management and maintenance module and a data processing module; the automatic inspection module is used for automatically detecting server faults and monitoring result faults; the alarm module is used for reminding work and carrying out operation and maintenance work in time when the automatic inspection module detects a fault; the server operation and maintenance module is used for establishing a plurality of emergency channels through the platform to process server faults; the monitoring fault management and maintenance module is used for acquiring monitoring index data of the system, processing the monitoring index data in real time and managing and maintaining the fault of the real-time monitoring result. The invention can automatically detect the server fault and the monitoring result fault by arranging the automatic inspection module, realizes the automatic detection of the fault, and starts the operation and maintenance work by the arranged alarm module, thereby improving the operation and maintenance efficiency.

Description

High-performance platform monitoring operation and maintenance system and method

Technical Field

The invention belongs to the technical field of monitoring operation and maintenance, and particularly relates to a high-performance platform monitoring operation and maintenance system and a method.

Background

The application universality and the scale of IT information systems in various industries are getting larger and larger, and in order to effectively manage the IT systems, a system operation and maintenance management platform is established according to the actual conditions of the IT systems, so that operation and maintenance management personnel can be helped to quickly and accurately locate faults existing in the system when the system is abnormal.

The existing high-performance platform monitoring operation and maintenance system and method have some problems: the fault is inconvenient to automatically patrol, and the operation and maintenance efficiency is reduced; the server fault and the fault of the result of real-time monitoring are inconvenient to be managed and maintained respectively, so a high-performance platform monitoring operation and maintenance system and a high-performance platform monitoring operation and maintenance method are provided.

Disclosure of Invention

The present invention is directed to a system and a method for monitoring operation and maintenance of a high performance platform, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the high-performance platform monitoring operation and maintenance system comprises an automatic inspection module, an alarm module, a server operation and maintenance module, a monitoring fault management and maintenance module and a data processing module;

the automatic inspection module is used for automatically detecting server faults and monitoring result faults;

the alarm module is used for reminding work and carrying out operation and maintenance work in time when the automatic inspection module detects a fault;

the server operation and maintenance module is used for establishing a plurality of emergency channels through the platform to process server faults;

the monitoring fault management and maintenance module is used for acquiring monitoring index data of the system, processing the monitoring index data in real time and managing and maintaining the fault of the real-time monitoring result;

and the data processing module is used for processing data of equipment in the platform to realize the creation of integrated operation, maintenance and monitoring.

Preferably, the automatic inspection module completes network detection by adopting a communication protocol, and completes automatic inspection and fault reason reporting by acquiring, decomposing and analyzing the video stream.

Preferably, the server operation and maintenance module comprises a platform construction unit, an emergency channel construction unit, a fault classification unit and a fault processing unit, wherein the platform construction unit is used for constructing a platform based on a cloud system architecture; the emergency channel construction unit is used for predefining various emergency channels for processing server faults on a constructed platform; the fault classification unit is used for acquiring operation data of the cloud system through the platform, acquiring server fault information from the acquired operation data and then performing fault type evaluation on the server fault information; the fault processing unit is used for transferring the platform, and selecting a predefined application channel to process the server fault aiming at different types of server faults.

Preferably, the monitoring fault management maintenance module comprises a monitoring data acquisition unit, a real-time processing unit, an abnormality monitoring unit and a fault management unit; the monitoring data acquisition unit is used for acquiring monitoring index data of the platform; the monitoring index data is index data which influences the stable operation of the platform and faces to a user or a service view angle; the real-time processing unit is used for carrying out real-time processing on the acquired monitoring index data and generating a dynamic trend line aiming at real-time change of each monitoring index along with time; the abnormity monitoring unit is used for monitoring the dynamic trend line in real time and determining that the platform is in a normal state or an abnormal state facing a user or a service visual angle system according to the relation between the dynamic trend line and a reference interval; and the fault management unit is used for managing and maintaining system faults according to the result of monitoring the dynamic trend line in real time.

Preferably, the data processing module comprises an access unit, a data unit, a service unit and an application unit; the access unit is used for accessing different Internet of things devices in the system; the data unit is used for receiving the accessed equipment data of the Internet of things equipment and processing the equipment data according to the requirements of the data system; and the service unit provides services for each object in the application unit according to the data provided by the data unit, and each object corresponds to a data system.

The invention also provides a high-performance platform monitoring operation and maintenance method, which comprises the following steps:

s1, automatically detecting server faults and monitoring result faults through an automatic inspection module;

s2, when the automatic inspection module detects a fault, the alarm module carries out reminding work and operation and maintenance work in time;

s3, establishing a plurality of emergency channels through a server operation and maintenance module to process server faults;

s4, acquiring monitoring index data of the system through a monitoring fault management maintenance module, processing the monitoring index data in real time, and performing fault management and maintenance on a real-time monitoring result;

and S5, carrying out data processing on the equipment in the platform through the data processing module to realize the creation of integrated operation, maintenance and monitoring.

Preferably, the specific method in S3 includes the following steps:

s301, constructing a platform based on a cloud system architecture;

s302, predefining various emergency channels for processing server faults on a built platform;

s303, acquiring running data of the cloud system through the platform, acquiring server fault information from the acquired running data, and evaluating the fault type of the server fault information;

s304, the platform is invoked, and according to different types of server faults, predefined application channels are selected to process the server faults.

Preferably, the specific method of S4 includes the following steps:

s401, acquiring monitoring index data of a platform;

s402, processing the acquired monitoring index data in real time, and generating a dynamic trend line for real-time change of each monitoring index along with time;

s403, monitoring the dynamic trend line in real time, and determining that the platform is in a normal state or in an abnormal state facing a user or a service visual angle system according to the relation between the dynamic trend line and a reference interval;

and S404, performing system fault management and maintenance according to the result of monitoring the dynamic trend line in real time.

Preferably, the specific method of S5 includes the following steps:

s501, accessing different Internet of things devices in a system;

s502, receiving device data of accessed Internet of things devices, and processing the device data according to the requirements of a data system;

s503, providing services for each object according to the provided data, and enabling each object to correspond to a data system.

Preferably, the data processing module adopts a second-order filter algorithm, the current filtering output time is set to be n, and the pressure filtering data output is y (n) which is obtained by recursion of the following formula:

y(n)＝b(0)x(n)+b(1)x(n-1)+b(2)x(n-2)+...+b(m)x(n-m)-a(1)y(n-1)- a(2)y(n-2)-a(m)y(n-m)；

the sequence a and the sequence b represent a group of series, m is an integer and represents the length of a related data pool needing to be called;

the analysis of the data entering the data pool requires the following two sequences:

dy(n)＝y(n)-y(n-1)；

dx(n)＝x(n)-x(n-1)；

wherein, the x sequence is a compensation value x sequence and represents a second compensation pressure value after pressure compensation;

the y sequence is a sequence of filtered values y, which represent second compensated pressure values after the filtering compensation.

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

(1) the invention can automatically detect the server fault and the monitoring result fault by arranging the automatic inspection module, realizes the automatic detection of the fault, and starts the operation and maintenance work by the arranged alarm module, thereby improving the operation and maintenance efficiency.

(2) According to the invention, the server fault can be processed by setting the server operation and maintenance module, and the real-time monitoring result can be subjected to fault management and maintenance by setting the monitoring fault management and maintenance module, so that the server fault and the real-time monitoring result fault can be respectively processed conveniently, and the processing effect is increased;

(3) according to the invention, the data processing module is arranged, so that the data processing can be carried out on the equipment in the platform, and the integrated operation, maintenance and monitoring can be established.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is one of the flow charts of the present invention;

FIG. 3 is a second flowchart of the present invention.

Detailed Description

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

Referring to fig. 1-2, the present invention provides a technical solution: the high-performance platform monitoring operation and maintenance system comprises an automatic inspection module, an alarm module, a server operation and maintenance module, a monitoring fault management and maintenance module and a data processing module;

the automatic inspection module is used for automatically detecting server faults and monitoring result faults;

the alarm module is used for reminding work and carrying out operation and maintenance work in time when the automatic inspection module detects a fault;

the server operation and maintenance module is used for establishing a plurality of emergency channels through the platform to process server faults;

the monitoring fault management and maintenance module is used for acquiring monitoring index data of the system, processing the monitoring index data in real time and managing and maintaining the fault of the real-time monitoring result;

and the data processing module is used for processing data of equipment in the platform to realize the creation of integrated operation, maintenance and monitoring.

In this embodiment, preferably, the automatic inspection module completes network detection by using a communication protocol, and completes automatic inspection and fault reason reporting by acquiring, decomposing and analyzing the video stream.

In this embodiment, preferably, the server operation and maintenance module includes a platform construction unit, an emergency channel construction unit, a fault classification unit, and a fault processing unit, and the platform construction unit is configured to construct a platform based on a cloud system architecture; the emergency channel construction unit is used for predefining various emergency channels for processing server faults on a constructed platform; the fault classification unit is used for acquiring operation data of the cloud system through the platform, acquiring server fault information from the acquired operation data and then evaluating the fault type of the server fault information; the fault processing unit is used for transferring the platform and selecting a predefined application channel to process the server fault aiming at different types of server faults.

In this embodiment, preferably, the monitoring fault management and maintenance module includes a monitoring data acquisition unit, a real-time processing unit, an exception monitoring unit, and a fault management unit; the monitoring data acquisition unit is used for acquiring monitoring index data of the platform; the monitoring index data is index data which influences the stable operation of the platform and faces to a user or a service view angle; the real-time processing unit is used for processing the acquired monitoring index data in real time and generating a dynamic trend line aiming at real-time change of each monitoring index along with time; the abnormity monitoring unit is used for monitoring the dynamic trend line in real time and determining that the platform is in a normal state or an abnormal state facing a user or a service visual angle system according to the relation between the dynamic trend line and a reference interval; and the fault management unit is used for carrying out system fault management and maintenance according to the result of monitoring the dynamic trend line in real time.

In this embodiment, preferably, the data processing module includes an access unit, a data unit, a service unit, and an application unit; the access unit is used for accessing different Internet of things devices in the system; the data unit is used for receiving the accessed equipment data of the Internet of things equipment and processing the equipment data according to the requirements of the data system; and the service unit provides services for each object in the application unit according to the data provided by the data unit, and each object corresponds to a data system.

The high-performance platform monitoring operation and maintenance method is characterized by comprising the following steps: the method comprises the following steps:

s1, automatically detecting server faults and monitoring result faults through an automatic inspection module;

s2, when the automatic inspection module detects a fault, the alarm module carries out reminding work and operation and maintenance work in time;

s3, establishing a plurality of emergency channels through the server operation and maintenance module to process server faults;

s4, acquiring monitoring index data of the system through a monitoring fault management maintenance module, processing the monitoring index data in real time, and performing fault management and maintenance on a real-time monitoring result;

and S5, carrying out data processing on the equipment in the platform through the data processing module to realize the creation of integrated operation, maintenance and monitoring.

In this embodiment, preferably, the specific method in S3 includes the following steps:

s301, constructing a platform based on a cloud system architecture;

s302, predefining various emergency channels for processing server faults on a built platform;

s303, acquiring operation data of the cloud system through the platform, acquiring server fault information from the acquired operation data, and then evaluating the fault type of the server fault information;

s304, the platform is called, and predefined application channels are selected to process server faults aiming at different types of server faults.

In this embodiment, preferably, the specific method of S4 includes the following steps:

s401, acquiring monitoring index data of a platform;

s402, processing the acquired monitoring index data in real time, and generating a dynamic trend line for real-time change of each monitoring index along with time;

s403, monitoring the dynamic trend line in real time, and determining that the platform is in a normal state or in an abnormal state facing a user or a service visual angle system according to the relation between the dynamic trend line and a reference interval;

and S404, performing system fault management and maintenance according to the result of monitoring the dynamic trend line in real time.

In this embodiment, preferably, the specific method of S5 includes the following steps:

s501, accessing different Internet of things devices in a system;

s502, receiving device data of accessed Internet of things devices, and processing the device data according to the requirements of a data system;

s503, providing services for each object according to the provided data, and enabling each object to correspond to a data system.

In this embodiment, preferably, the data processing module is implemented by using a second-order filter algorithm, the current filtering output time is set to be n, and the pressure filtering data output is y (n) which is obtained by recursion of the following formula:

y(n)＝b(0)x(n)+b(1)x(n-1)+b(2)x(n-2)+...+b(m)x(n-m)-a(1)y(n-1)- a(2)y(n-2)-a(m)y(n-m)；

the sequence a and the sequence b represent a group of series, m is an integer and represents the length of a related data pool needing to be called;

the analysis of the data entering the data pool requires the following two sequences:

dy(n)＝y(n)-y(n-1)；

dx(n)＝x(n)-x(n-1)；

wherein, the x sequence is a compensation value x sequence and represents a second compensation pressure value after pressure compensation;

the y sequence is a sequence of filtered values y, which represent second compensated pressure values after the filtering compensation.

The principle and the advantages of the invention are as follows: the invention can automatically detect the fault of the server and the fault of the monitoring result by arranging the automatic inspection module, realizes the automatic detection of the fault, and starts the operation and maintenance work by the arranged alarm module, thereby improving the operation and maintenance efficiency; the server fault can be processed by arranging the server operation and maintenance module, and the real-time monitoring result can be managed and maintained by arranging the monitoring fault management and maintenance module, so that the server fault and the real-time monitoring result fault can be processed respectively conveniently, and the processing effect is improved; through setting up data processing module, can carry out data processing to the equipment in the platform, realized establishing integrated operation and maintenance and control.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. High performance platform control operation and maintenance system, its characterized in that: the system comprises an automatic inspection module, an alarm module, a server operation and maintenance module, a monitoring fault management and maintenance module and a data processing module;

the automatic inspection module is used for automatically detecting server faults and monitoring result faults;

the alarm module is used for reminding work and carrying out operation and maintenance work in time when the automatic inspection module detects a fault;

the server operation and maintenance module is used for establishing a plurality of emergency channels through the platform to process server faults;

the monitoring fault management and maintenance module is used for acquiring monitoring index data of the system, processing the monitoring index data in real time and managing and maintaining the fault of the real-time monitoring result;

and the data processing module is used for processing data of equipment in the platform to realize the creation of integrated operation, maintenance and monitoring.

2. The high performance platform monitoring operation and maintenance system of claim 1, wherein: the automatic inspection module adopts a communication protocol to complete network detection, and finishes automatic inspection and fault reason report by acquiring, decomposing and analyzing video streams.

3. The high performance platform monitoring operation and maintenance system of claim 1, wherein: the server operation and maintenance module comprises a platform construction unit, an emergency channel construction unit, a fault classification unit and a fault processing unit, wherein the platform construction unit is used for constructing a platform based on a cloud system architecture; the emergency channel construction unit is used for predefining various emergency channels for processing server faults on a constructed platform; the fault classification unit is used for acquiring operation data of the cloud system through the platform, acquiring server fault information from the acquired operation data and then evaluating the fault type of the server fault information; the fault processing unit is used for transferring the platform and selecting a predefined application channel to process the server fault aiming at different types of server faults.

4. The high performance platform monitoring operation and maintenance system of claim 1, wherein: the monitoring fault management maintenance module comprises a monitoring data acquisition unit, a real-time processing unit, an abnormity monitoring unit and a fault management unit; the monitoring data acquisition unit is used for acquiring monitoring index data of the platform; the monitoring index data is index data which influences the stable operation of the platform and faces to a user or a service view angle; the real-time processing unit is used for processing the acquired monitoring index data in real time and generating a dynamic trend line aiming at real-time change of each monitoring index along with time; the abnormity monitoring unit is used for monitoring the dynamic trend line in real time and determining that the platform is in a normal state or an abnormal state facing a user or a service visual angle system according to the relation between the dynamic trend line and a reference interval; and the fault management unit is used for carrying out system fault management and maintenance according to the result of monitoring the dynamic trend line in real time.

5. The high performance platform monitoring operation and maintenance system of claim 1, wherein: the data processing module comprises an access unit, a data unit, a service unit and an application unit; the access unit is used for accessing different Internet of things devices in the system; the data unit is used for receiving the equipment data of the accessed Internet of things equipment and processing the equipment data according to the requirements of the data system; and the service unit provides services for each object in the application unit according to the data provided by the data unit, and each object corresponds to a data system.

6. The high-performance platform monitoring operation and maintenance method is characterized by comprising the following steps: the method comprises the following steps:

s1, automatically detecting server faults and monitoring result faults through an automatic inspection module;

s2, reminding work and timely carrying out operation and maintenance work when the automatic inspection module detects a fault through an alarm module;

s3, establishing a plurality of emergency channels through the server operation and maintenance module to process server faults;

s4, acquiring monitoring index data of the system through a monitoring fault management maintenance module, processing the monitoring index data in real time, and performing fault management and maintenance on a real-time monitoring result;

and S5, carrying out data processing on the equipment in the platform through the data processing module to realize the creation of integrated operation, maintenance and monitoring.

7. The high-performance platform monitoring operation and maintenance method according to claim 6, wherein: the specific method in S3 includes the steps of:

s301, constructing a platform based on a cloud system architecture;

s302, predefining various emergency channels for processing server faults on a built platform;

s303, acquiring operation data of the cloud system through the platform, acquiring server fault information from the acquired operation data, and then evaluating the fault type of the server fault information;

s304, the platform is called, and according to different types of server faults, predefined application channels are selected to process the server faults.

8. The high-performance platform monitoring operation and maintenance method according to claim 6, wherein: the specific method of S4 comprises the following steps:

s401, acquiring monitoring index data of a platform;

s402, processing the acquired monitoring index data in real time, and generating a dynamic trend line for real-time change of each monitoring index along with time;

s403, monitoring the dynamic trend line in real time, and determining that the platform is in a normal state or an abnormal state facing a user or a service visual angle system according to the relation between the dynamic trend line and a reference interval;

and S404, performing system fault management and maintenance according to the result of monitoring the dynamic trend line in real time.

9. The high-performance platform monitoring operation and maintenance method according to claim 6, wherein: the specific method of S5 comprises the following steps:

s501, accessing different Internet of things devices in a system;

s502, receiving device data of accessed Internet of things devices, and processing the device data according to the requirements of a data system;

s503, providing services for each object according to the provided data, and enabling each object to correspond to a data system.

10. The high-performance platform monitoring operation and maintenance method according to claim 6, wherein: the data processing module adopts a second-order filter algorithm, the current filtering output moment is set to be n, and the pressure filtering data output is y (n) which is obtained by recursion of the following formula:

y(n)＝b(0)x(n)+b(1)x(n-1)+b(2)x(n-2)+...+b(m)x(n-m)-a(1)y(n-1)-a(2)y(n-2)-a(m)y(n-m)；

wherein, the sequence a and the sequence b represent a group of series, m is an integer and represents the length of the related data pool needing to be called;

the analysis of the data entering the data pool requires the following two sequences:

dy(n)＝y(n)-y(n-1)；

dx(n)＝x(n)-x(n-1)；

wherein, the x sequence is a compensation value x sequence and represents a second compensation pressure value after pressure compensation;

the y sequence is a sequence of filtered values y, which represent second compensated pressure values after the filtering compensation.

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