CN111953525A - Special equipment operation and maintenance monitoring system - Google Patents

Abstract

The invention relates to a special equipment operation and maintenance monitoring system, which comprises: the system comprises one or more special devices and a server, wherein the special devices are provided with data acquisition modules, and the server is provided with a response module, a configuration module, an alarm module and a topology display module; the configuration module is used for acquiring one or more items of data acquired by the data acquisition module to configure and monitoring the special equipment in real time; the response module is used for carrying out interactive verification with the special equipment; the alarm module is used for carrying out dynamic alarm according to the acquired data of the data acquisition module and the alarm threshold value set by the configuration module; the topology display module is used for performing topology display on one or more special devices and the corresponding network architecture thereof and performing dynamic topology display through a display interface according to the alarm information of the alarm module. The invention has the beneficial effects that: the collected data can be selected according to the actual requirements of the user, and the network and the running state of the special equipment can be monitored and displayed in real time.

Description

Special equipment operation and maintenance monitoring system

Technical Field

The invention relates to the field of computers, in particular to a special equipment operation and maintenance monitoring system.

Background

At present, the number of servers used in each area and the running business programs are increasingly huge, the manual operation and maintenance of operation and maintenance personnel are increasingly difficult, equipment and business maintenance bring great troubles to clients, especially, when the servers run down or the application business programs run down, the problems cannot be found in a timely positioning mode through manual troubleshooting, time and labor are wasted, and the normal running of the existing business is seriously influenced.

Currently, most operation and maintenance monitoring systems are relatively single in monitoring objects, for example, a monitoring system related to a server can only monitor the running state of a general server and cannot effectively monitor things except the server, and for example, a program running state monitoring system can only run a program to perform single monitoring.

Disclosure of Invention

The invention aims to solve at least one of the technical problems in the prior art, and provides a special equipment operation and maintenance monitoring system, which realizes undifferentiated real-time monitoring of diversified data, flexible diversified alarm configuration of the data, customized program operation index monitoring and special equipment monitoring.

The technical scheme of the invention comprises a special equipment operation and maintenance monitoring system, and is characterized in that the system comprises one or more special equipment and a server, wherein the special equipment is provided with a data acquisition module, and the server is provided with a response module, a configuration module, an alarm module and a topology display module; the configuration module is used for acquiring one or more items of data acquired by the data acquisition module to configure and monitoring the proprietary equipment in real time; the response module is used for carrying out interactive verification with the special equipment and issuing a corresponding acquisition command to the special equipment; the alarm module is used for carrying out dynamic alarm according to the acquired data of the data acquisition module and the alarm threshold value set by the configuration module; the topology display module is used for performing topology display on one or more special devices and network architectures corresponding to the special devices, and performing dynamic topology display through a display interface according to the alarm information of the alarm module.

According to the special equipment operation and maintenance monitoring system, the configuration module carries out custom configuration on the data items and the alarm parameters acquired by the data acquisition module through an interactive interface according to the type of the special equipment.

According to the special equipment operation and maintenance monitoring system, the system further comprises a client side, wherein the client side is used for sending a monitoring and checking request to the response module and receiving monitoring data sent by the data acquisition module.

According to the special equipment operation and maintenance monitoring system, the configuration module is further used for configuring the authority of the monitoring and checking request of the client, and the client accesses the corresponding monitoring data according to the authority.

According to the special equipment operation and maintenance monitoring system, the response module is used for registering the corresponding special equipment according to the special equipment information and carrying out data interaction with the data acquisition module in a response mode.

According to the operation and maintenance monitoring system for the special equipment, the topology display module is used for acquiring the state of a server, the state of network connection and the running state of a switch of the special equipment according to the monitoring data acquired by the data acquisition module, and further constructing a running topology graph of the special equipment through primitives, wherein each node of the topology graph represents the running state of a corresponding connection device.

According to the special equipment operation and maintenance monitoring system, the alarm module is used for carrying out real-time monitoring and alarming according to the alarm configuration of the configuration module and the special equipment acquisition data acquired by the response module.

According to the operation and maintenance monitoring system for the special equipment, the system further comprises: and the topology display module is used for correspondingly marking the corresponding node according to the alarm information of the alarm module so as to display the abnormal behavior of the node.

The invention has the beneficial effects that: the proprietary equipment monitoring adopts a command to carry back a downlink message, a special command is initiated to the proprietary equipment through the operation and maintenance monitoring terminal, the message back transmission and the corresponding transmission of the front-end equipment are waited, a user can select the acquired data according to the actual requirement of the user, and the network and the running state of the proprietary equipment can be monitored and displayed in real time.

Drawings

The invention is further described below with reference to the accompanying drawings and examples;

FIG. 1 is a block diagram of an overall system according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating a proprietary device interaction according to an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a combination management of a proprietary device/a generic device according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number.

In the description of the present invention, the consecutive reference numbers of the method steps are for convenience of examination and understanding, and the implementation order between the steps is adjusted without affecting the technical effect achieved by the technical solution of the present invention by combining the whole technical solution of the present invention and the logical relationship between the steps.

FIG. 1 is a block diagram of an overall system according to an embodiment of the invention, the system comprising: the system comprises one or more special devices (such as special devices 1-n) and a server, wherein the special devices are provided with data acquisition modules (data acquisition modules 1-n), and the server is provided with a response module, a configuration module, an alarm module and a topology display module; the configuration module is used for acquiring one or more items of data acquired by the data acquisition module to configure and monitoring the special equipment in real time; the response module is used for carrying out interactive verification with the special equipment and issuing a corresponding acquisition command to the special equipment; the alarm module is used for carrying out dynamic alarm according to the acquired data of the data acquisition module and the alarm threshold value set by the configuration module; the topology display module is used for performing topology display on one or more special devices and the corresponding network architecture thereof and performing dynamic topology display through a display interface according to the alarm information of the alarm module. And the configuration module carries out custom configuration on the data items and the alarm parameters acquired by the data acquisition module through the interactive interface according to the type of the special equipment. The client is used for sending a monitoring and checking request to the response module and receiving monitoring data sent by the data acquisition module. The response module is used for registering the corresponding special equipment according to the special equipment information and carrying out data interaction with the data acquisition module in a response mode. The topology display module is used for acquiring the server state, the network connection state and the switch running state of the special equipment according to the monitoring data acquired by the data acquisition module, and further constructing a running topology graph of the special equipment through the primitives, wherein each node of the topology graph represents the running state of the corresponding connecting device. The alarm module is used for carrying out real-time monitoring and alarming according to the alarm configuration of the configuration module and the data acquired by the special equipment and acquired by the response module.

FIG. 2 is a diagram illustrating interaction of a proprietary device according to an embodiment of the present invention. In the figure, the dedicateddevice is a special device, the UNMS is registration, interactive verification, log analysis and acquisition configuration of the special device, the Agent is used for receiving acquired data and is provided with a father program, and the father program is used for monitoring and transmitting the data; the flexile unit is a data acquisition module arranged in a special device, is a subprogram and is mainly used for data acquisition. And monitoring the universal server based on a parent-child structure mode, wherein the child program transmits the parent program and receives and monitors the parent program. The proprietary equipment monitoring adopts a command to carry back a downlink message, a special command is initiated to the proprietary equipment through the operation and maintenance monitoring father terminal, and the front-end equipment is waited to carry out message back transmission and corresponding, the above modes are all that the operation and maintenance monitoring system is configured by default to realize monitoring, and a user can select according to the actual requirements of the user.

Based on the technical scheme of fig. 2, a user can visually see the running state of the general server, the running state of the application program and the running state of the proprietary device only by configuring the system through which the user passes, can check the running details of the current server for a single server, and can directly check the real-time running log of the current program and the running state of a certain module of the proprietary device for the application program.

With reference to fig. 1, the above monitoring also provides a network topology diagram manner, and the network distribution of the entire network is performed by node creation and the network connection of the relationship between the nodes, so that the actual network distribution condition can be visually checked on the operation and maintenance monitoring system in a virtual manner, and the server operation state, the network connection state and the switch operation state of the entire network architecture can be visually checked through the topology diagram. When a certain node fails, the position and the alarm details of the alarm equipment can be directly reflected on the network topological graph intuitively.

The system can also perform customized monitoring on a special index, for example, a voice acquisition system not only needs to monitor the running state of the system, but also can further analyze and judge the running state of the system through the index of the system, the mode only needs a data format file corresponding to a program output standard, and the operation and maintenance monitoring system can analyze and display the index of the program through flexible configuration, perform alarm rule configuration and monitor whether the index output condition is normal or not in real time.

Fig. 3 is a schematic diagram illustrating a combination management of a proprietary device/a generic device according to an embodiment of the present invention. As shown in fig. 3, the system of the present invention may also be compatible with a general device monitoring system, which monitors general devices.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (8)

1. A special equipment operation and maintenance monitoring system is characterized by comprising one or more special equipment and a server, wherein the special equipment is provided with a data acquisition module, and the server is provided with a response module, a configuration module, an alarm module and a topology display module;

the configuration module is used for acquiring one or more items of data acquired by the data acquisition module to configure and monitoring the proprietary equipment in real time;

the response module is used for carrying out interactive verification with the special equipment and issuing a corresponding acquisition command to the special equipment;

the alarm module is used for carrying out dynamic alarm according to the acquired data of the data acquisition module and the alarm threshold value set by the configuration module;

the topology display module is used for performing topology display on one or more special devices and network architectures corresponding to the special devices, and performing dynamic topology display through a display interface according to the alarm information of the alarm module.

2. The system for monitoring operation and maintenance of proprietary equipment according to claim 1, wherein the configuration module performs custom configuration on the data items and alarm parameters collected by the data collection module through an interactive interface according to the type of the proprietary equipment.

3. The proprietary device operation and maintenance monitoring system according to claim 1, further comprising a client, wherein the client is configured to send a monitoring viewing request to the response module and receive monitoring data sent by the data collection module.

4. The system according to claim 2 or 3, wherein the configuration module is further configured to configure a right of the monitoring request of the client, and the client accesses the corresponding monitoring data according to the right.

5. The system for monitoring operation and maintenance of proprietary equipment according to claim 1, wherein the response module is configured to register the corresponding proprietary equipment according to the proprietary equipment information, and is configured to perform data interaction with the data acquisition module in a response manner.

6. The system for monitoring operation and maintenance of proprietary equipment according to claim 1, wherein the topology display module is configured to obtain a server state, a network connection state, and an exchanger operation state of the proprietary equipment according to the monitoring data acquired by the data acquisition module, and further construct an operation-time topology graph of the proprietary equipment through primitives, where each node of the topology graph represents an operation state of a corresponding connection device.

7. The system for monitoring operation and maintenance of proprietary equipment according to claim 1, wherein the alarm module is configured to perform real-time monitoring and alarming according to the alarm configuration of the configuration module and the data collected by the proprietary equipment and acquired by the response module.

8. The proprietary device operation and maintenance monitoring system of claim 1, further comprising:

and the topology display module is used for correspondingly marking the corresponding node according to the alarm information of the alarm module so as to display the abnormal behavior of the node.

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