CN111245659A - Intelligent network management system - Google Patents

Abstract

The invention relates to the technical field of network management, in particular to an intelligent network management system, which comprises a data acquisition layer, a central control layer and a data display layer, wherein the data acquisition layer is used for acquiring data; the data acquisition layer comprises a data acquisition module, a remote control center module and a flow analysis module; the control center module is used for completing the analysis and processing of all data acquired by the data acquisition layer, the global configuration and issuing of system strategies, the synchronization of resource events and alarms, the acquisition and analysis of link information and the script monitoring function; the storage module is used for storing all data acquired by the data acquisition layer; the data display layer comprises a display module and a management configuration module, wherein the display module is used for providing management display of network resources, and the management configuration module is used for finishing interaction of various instructions of a user and transmitting the instructions of the user to the central control layer. The invention is a system which can comprehensively manage the resources with various types and complex relations.

Description

Intelligent network management system

Technical Field

The invention relates to the technical field of network management, in particular to an intelligent network management system.

Background

With the gradual and deep integration process of the network and the business, the role of network management in the development process of modern enterprises becomes more and more important, and the network management as a business important supporting element faces more and more challenges. In the past, the focus of network management work is simply on the technical level to pursue stable operation and performance quality of network components, which brings many people into a miszone of 'heavy technical quality and light service index'. However, in the enterprise development process, the enterprise service often fluctuates due to the problem of the enterprise system, and particularly, the problem of which part of the enterprise system occurs, and the service system is used more slowly, in the face of these problems, in the mode based on the device management, the network operation and maintenance engineer can only detect the links of the network, the application, the middleware and the data storage one by one, and a tool for implementing the network management and the network service from the service level is lacked.

In network management, operation and maintenance personnel not only maintain and manage some network resources and some network resources, but also often face network resources with different functional characteristics, different manufacturers and different models, and even manage non-network resources including machine room environments, cabinets and the like. The complicated infrastructures form the foundation of enterprise informatization, and any problem can cause great influence on the normal operation of enterprise business.

In summary, it is necessary to research an effective tool and method to comprehensively manage these various resources with complex relationships.

Disclosure of Invention

In view of the defects of the prior art, the invention provides an intelligent network management system, which is a set of system capable of comprehensively managing the resources with various types and complex relationships.

In order to achieve the purpose, the technical scheme adopted by the invention is an intelligent network management system which comprises a data acquisition layer, a central control layer and a data display layer;

the data acquisition layer comprises a data acquisition module, a remote control center module and a flow analysis module;

the data acquisition module is used for acquiring data of network resource index information supporting an SNMP protocol and transmitting the data to the CCS for unified processing; the remote control center module is used for collecting information of the non-SNMP protocol supervised equipment; the flow analysis module is used for completing the flow analysis function;

the central control layer comprises a control center module and a storage module;

the control center module is used for completing analysis and processing of all data acquired by the data acquisition layer, port transfer control of a transport instruction, global configuration and issuing of system strategies, synchronization of resource events and alarms, acquisition and analysis of link information and script monitoring functions; the storage module is used for storing all data acquired by the data acquisition layer;

the data presentation layer comprises a presentation module and a management configuration module,

the display module is used for providing management display of network resources, and the management configuration module is used for finishing interaction of various instructions of a user and transmitting the instructions of the user to the central control layer.

Furthermore, the data acquisition layer also comprises a log service module and a discovery service module; the log service module is used for collecting the collection logs; the discovery service module is used for completing the automatic discovery function of resources during the initialization work of the system.

Preferably, the collection mode of the remote control center module comprises one or more of WMI, telnet/SSH, and ping.

Furthermore, the flow analysis module supports flow analysis protocols such as IPFIX (V5, V9, V10), XLow (V5), Netstream, Netstlow and the like to complete the flow analysis function through the cooperation with corresponding hardware equipment.

On the other hand, the technical scheme provided by the invention is an intelligent network management method, which comprises a resource management method, an alarm management method and a service management method;

the resource management method comprises the steps that a data acquisition module in a data acquisition layer acquires resource data, the data are uploaded to a control center module, the control center module carries out classified statistics on the resource data and obtains resource performance indexes, and the processed data are displayed on a display module of a data display layer;

based on the technical scheme, the resource classification statistics can help a network administrator to quickly master the allocation condition of the network assets, clearly and directly show the classification and data of the whole network assets, and help the network administrator master the quantity of each type of network assets. The resource classification statistics and arrangement can help a network administrator to master which kind of assets has the most matching quantity in the information construction process, and help the network administrator to provide data basis for network maintenance key points and directions. And the resource performance indexes are ranked, and a network administrator is helped to quickly locate resource use performance bottleneck points in the current network environment. The resource performance index is ranked, the network administrator is helped to quickly locate the resource use performance bottleneck point in the current network environment,

the alarm management method comprises the steps that alarm data are collected by a data collection module in the data collection layer and are uploaded to a control center module, the control center module carries out alarm quantity statistics, alarm classification and alarm severity classification on the alarm data, and the processed data are displayed on a display module of the data display layer;

based on the technical scheme, the alarm level ratio helps a network administrator to know the severity of the asset fault of the whole network and provides data basis for analyzing the risk of the fault of the whole network. The latest alarm list can help a network administrator to quickly master the fault condition in the current network environment, process key faults at the first time and ensure the stable operation of network services.

The business management method comprises the steps that a data acquisition module in a data acquisition layer acquires actual business application data and uploads the actual business application data to a control center module, and the control center module carries out business system safe operation day counting, business system health degree counting and busyness degree counting on the actual business application data; and displaying the processed data in a display module of the data display layer.

Based on the technical scheme, the safe operation days of the service system can help the CIO to know the stable and healthy operation duration of the important service system and clearly know the maintenance current condition of the service system through a bottom layer statistical analysis algorithm. The service performance trend graph can provide the key service system health degree, the busy degree, the availability, the downtime frequency, the downtime duration, the operation trend and the like for the user in a certain time period in a visual contrast mode, help the user to present the service change trend, and assist in network planning according to the service trend.

Note that, busyness: the busyness calculation rule of the business system can be flexibly set, similar to the usability setting, the user can define the elements participating in busyness calculation, including the performance indexes of the resources and the sub-resources thereof, and the degree of influence on busyness is calculated through the weight setting in a combined mode. Health degree: the health degree depends on the availability and busyness data of the business, the health degree data of the business is calculated through the weight setting combination, the health degree also provides custom configuration, and a user can add resources participating in the health degree calculation and performance indexes of the resources by himself, so that the personalized requirements of the user on the health data of the business system are fully met. Sending rules: when the service application generates an alarm, the alarm sending condition and the upgrading condition are set through the sending rule, and the alarm level, the alarm type, the alarm sending time, the continuous alarm sending condition, the selective alarm sending condition, the sending mode, the receiving personnel or organization and the like can be set.

Furthermore, the intelligent network management method also comprises a storage monitoring management method, and the system monitors the states of the HBA host, the FC switch, the storage device and the optical fiber channel, and the distribution condition of the data storage disk.

Further, the storage monitoring management method further comprises the step of generating an FC-SAN topology.

Based on the technical scheme, the system mainly automatically discovers and monitors databases such as Oracle, DB2, MySQL, SQL Server, PostgreSQL, Sybase, Informix and the like based on JDBC and the like, collects index information such as partitions, processes, tablespaces, data files, log files, hit rates and the like of the databases, and can set alarm thresholds of the indexes according to business application conditions, so that operation and maintenance personnel can well master the running state of the databases.

The invention has the beneficial effects that: the system is a set of system capable of comprehensively managing the resources with various types and complex relationships.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 is a schematic diagram of a logical architecture of an intelligent network management system according to the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention.

The intelligent network management system comprises a data acquisition layer, a central control layer and a data display layer;

the data acquisition layer comprises a data acquisition module, a remote control center module and a flow analysis module;

the data acquisition module is used for acquiring data of network resource index information supporting an SNMP protocol and transmitting the data to the CCS for unified processing; the remote control center module is used for collecting information of the non-SNMP protocol supervised equipment; the flow analysis module is used for completing the flow analysis function;

the central control layer comprises a control center module and a storage module;

the control center module is used for completing analysis and processing of all data acquired by the data acquisition layer, port transfer control of a transport instruction, global configuration and issuing of system strategies, synchronization of resource events and alarms, acquisition and analysis of link information and script monitoring functions; the storage module is used for storing all data acquired by the data acquisition layer;

the data presentation layer comprises a presentation module and a management configuration module,

the display module is used for providing management display of network resources, and the management configuration module is used for finishing interaction of various instructions of a user and transmitting the instructions of the user to the central control layer.

Furthermore, the data acquisition layer also comprises a log service module and a discovery service module; the log service module is used for collecting the collection logs; the discovery service module is used for completing the automatic discovery function of resources during the initialization work of the system.

Preferably, the collection mode of the remote control center module comprises one or more of WMI, telnet/SSH, and ping.

Furthermore, the flow analysis module supports flow analysis protocols such as IPFIX (V5, V9, V10), XLow (V5), Netstream, Netstlow and the like to complete the flow analysis function through the cooperation with corresponding hardware equipment.

On the other hand, the technical scheme provided by the invention is an intelligent network management method, which comprises a resource management method, an alarm management method and a service management method;

the resource management method comprises the steps that a data acquisition module in a data acquisition layer acquires resource data, the data are uploaded to a control center module, the control center module carries out classified statistics on the resource data and obtains resource performance indexes, and the processed data are displayed on a display module of a data display layer;

the alarm management method comprises the steps that alarm data are collected by a data collection module in the data collection layer and are uploaded to a control center module, the control center module carries out alarm quantity statistics, alarm classification and alarm severity classification on the alarm data, and the processed data are displayed on a display module of the data display layer;

the business management method comprises the steps that a data acquisition module in a data acquisition layer acquires actual business application data and uploads the actual business application data to a control center module, and the control center module carries out business system safe operation day counting, business system health degree counting and busyness degree counting on the actual business application data; and displaying the processed data in a display module of the data display layer.

Furthermore, the intelligent network management method also comprises a storage monitoring management method, and the system monitors the states of the HBA host, the FC switch, the storage device and the optical fiber channel, and the distribution condition of the data storage disk.

Further, the storage monitoring management method further comprises the step of generating an FC-SAN topology.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. Intelligent network management system, its characterized in that: the system comprises a data acquisition layer, a central control layer and a data display layer;

the data acquisition layer comprises a data acquisition module, a remote control center module and a flow analysis module;

the data acquisition module is used for acquiring and processing data of network resource index information supporting an SNMP protocol; the remote control center module is used for collecting information of the non-SNMP protocol supervised equipment; the flow analysis module is used for completing the flow analysis function;

the central control layer comprises a control center module and a storage module;

the control center module is used for completing the analysis and processing of all data acquired by the data acquisition layer, the global configuration and issuing of system strategies, the synchronization of resource events and alarms, the acquisition and analysis of link information and the script monitoring function; the storage module is used for storing all data acquired by the data acquisition layer;

the data presentation layer comprises a presentation module and a management configuration module,

the display module is used for providing management display of network resources, and the management configuration module is used for finishing interaction of various instructions of a user and transmitting the instructions of the user to the central control layer.

2. The intelligent network management system of claim 1, wherein: the data acquisition layer also comprises a log service module and a discovery service module; the log service module is used for collecting the collection logs; the discovery service module is used for completing the automatic discovery function of resources during the initialization work of the system.

3. The intelligent network management system of claim 1, wherein: the collection mode of the remote control center module comprises one or more of WMI, telnet/SSH and ping.

4. The intelligent network management system of claim 1, wherein: the flow analysis module supports a flow analysis protocol to complete the flow analysis function through the cooperation with corresponding hardware equipment.

5. The intelligent network management method is characterized in that: the method comprises a resource management method, an alarm management method and a service management method;

the resource management method comprises the steps that a data acquisition module in a data acquisition layer acquires resource data, the data are uploaded to a control center module, the control center module carries out classified statistics on the resource data and obtains resource performance indexes, and the processed data are displayed on a display module of a data display layer;

the alarm management method comprises the steps that alarm data are collected by a data collection module in a data collection layer and are uploaded to a control center module, the control center module carries out alarm quantity statistics, alarm classification and alarm severity classification on the alarm data, and the processed data are displayed on a display module of a data display layer;

the business management method comprises the steps that a data acquisition module in a data acquisition layer acquires actual business application data and uploads the actual business application data to a control center module, and the control center module carries out business system safe operation day counting, business system health degree counting and busyness degree counting on the actual business application data; and displaying the processed data in a display module of the data display layer.

6. The intelligent network management method of claim 5, wherein: the intelligent network management method also comprises a storage monitoring management method, and the system monitors the states of the HBA host, the FC switch, the storage equipment and the optical fiber channel and the distribution condition of the data storage disk.

7. The intelligent network management method of claim 6, wherein: the storage monitoring management method further comprises the step of generating an FC-SAN topology.

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