CN110995503A - Synchronous network monitoring method and system - Google Patents

Abstract

The invention discloses a method and a system for monitoring a synchronous network, wherein the method comprises the following steps: acquiring equipment data in a synchronous network; the equipment data is obtained through a transmission protocol and a standard interface of a corresponding brand according to equipment brand information in the equipment data; and visualizing the equipment data to generate a visualized monitoring view. The invention can realize the comprehensive monitoring of the synchronous network containing the multi-brand equipment.

Description

Synchronous network monitoring method and system

Technical Field

The invention belongs to the technical field of time-frequency synchronization, and particularly relates to a method and a system for monitoring a synchronous network.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

The synchronous network is a network consisting of a level 1 reference clock, a level 2 node slave clock and an inter-provincial transmission network, in the optimization and transformation process of the synchronous network, the equipment brands of the synchronous network are diversified, usually comprising a plurality of brands, the professional network management of each brand of synchronous equipment can only monitor and manage the synchronous equipment of each brand, although each synchronous clock equipment has own standard, if unified management is needed, secondary development is needed, and for equipment which is difficult to obtain professional software service, such as imported or production stopped equipment, professional management software needs to be separately developed for the equipment, and a technical means for monitoring and managing all brands of equipment of the synchronous network is lacked. Under the condition that the synchronous network lacks centralized monitoring and management, the running condition of the synchronous network equipment is difficult to monitor and control in time in real time, and the fault can not be quickly positioned and eliminated.

The synchronous network is a basic support network of various upstream equipment networks, is used for providing an accurate and uniform synchronous reference for the whole upstream equipment network, and is an important means for ensuring the normal operation of various services. The performance of the upstream equipment network is reduced due to the abnormal condition of the upstream equipment network caused by the fault of the synchronous network, the synchronous network which is monitored and managed in a centralized way is not available, the running state is unknown, and the potential safety hazard and the influence range are unknown. The operation and maintenance personnel have limited knowledge about the clock equipment and are irregular in the monitoring and operation and maintenance levels of the synchronous equipment; the existing monitoring means can not comprehensively master the operation quality of the synchronous network, and no data basis exists in network optimization and capacity expansion.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a synchronous network monitoring method and a system, wherein the method can carry out unified monitoring on a synchronous network with a plurality of brands of equipment, and can realize various forms of visual views so as to facilitate monitoring.

In order to achieve the above object, one or more embodiments of the present invention provide the following technical solutions:

a synchronous network monitoring method comprises the following steps:

acquiring equipment data in a synchronous network; the equipment data is obtained through a transmission protocol and a standard interface of a corresponding brand according to equipment brand information in the equipment data;

and visualizing the equipment data to generate a visualized monitoring view.

Further, the device data includes: device basic information, device address data, device status data, device performance data, and device alarm data.

Further, the device status data includes: management module state data, clock module state data, satellite module state data, input module state data, and output module state data.

Further, the device address data includes: the spatial geographical position information of the equipment, the MAC address information of the equipment and the IP address information of the equipment.

Further, the views include a physical view, a logical view, and a data communications network view.

One or more embodiments provide a synchronous network monitoring system, including: the system comprises a server and a synchronous network, wherein the server is in communication connection with equipment in the synchronous network; the server is configured to:

acquiring and storing equipment data transmitted by equipment in a synchronous network; the equipment data is obtained through a transmission protocol and a standard interface of a corresponding brand according to equipment brand information in the equipment data;

and receiving a visual monitoring request, and generating a visual monitoring view according to the equipment data.

Further, comprising: the device data transmitted by the devices in the synchronous network is actively monitored or passively received through the TL1 and the SNMP protocol.

Further, comprising: when the connection with the equipment is established through a TL1 protocol, caching the equipment after each equipment is connected to a server for the first time, and preferentially selecting the cached connection when the server is connected with the equipment; the SNMP protocol uses SNMP 4J to establish a connection to a device.

Further, the system also comprises a client end which is in communication connection with the server; for receiving configuration data for a device, and for receiving a visual view of the device data.

Further, the client receives a view update request, sends the view update request to the server, and receives an updated view for visualization, wherein the view update request includes a device data type requested to be displayed.

The above one or more technical solutions have the following beneficial effects:

the monitoring method and the system for the synchronous network can realize the unified fault and alarm information monitoring processing of the whole synchronous network, ensure that related workers can quickly master the fault and alarm conditions of the whole synchronous network, and help operation and maintenance personnel to quickly position the fault. Moreover, based on the long-term operation data of the system, the analysis function of each dimension of the operation condition of the equipment can be provided, the operation quality of the synchronous network can be conveniently and comprehensively mastered, and the accurate and uniform synchronous reference can be provided for the whole upstream equipment network.

The synchronous network monitoring method and the system of the invention carry out comprehensive management on synchronous network equipment of different manufacturers, realize the centralized configuration and management of equipment of various brands in the current network, realize the data transmission of the equipment of various brands through corresponding interfaces of various manufacturers and open northbound interfaces, and reduce the workload of synchronous network maintenance.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

FIG. 1 is a diagram illustrating a functional architecture of a monitoring system of a synchronous network according to an embodiment of the present invention;

FIG. 2 is a flow chart of the service of the monitoring system of the synchronous network in the embodiment of the present invention;

FIG. 3 is a conceptual data model diagram of a monitoring system of a synchronous network according to an embodiment of the present invention;

fig. 4 is a logic hierarchical diagram of a monitoring system of a synchronous network according to an embodiment of the present invention.

Detailed Description

It is to be understood that the following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

Example one

The embodiment discloses a monitoring method of a synchronous network, which comprises the following steps:

step 1: acquiring equipment data and external data from a synchronous network;

the device data includes: device basic information, device status data, device address data, device performance data, device alarm data, etc.

Wherein, the device basic information includes: device name, device brand, device type, etc.

The device status data includes: management module state data, clock module state data, satellite module state data, input module state data, and output module state data.

The satellite module state data includes: the satellite module enables state, satellite receiving number, tracking satellite longitude and latitude height and satellite receiving signal quality.

The input module state data includes: input port enable status, input priority configuration, tracking mode, quality priority status.

The output module status data includes: the output port enables state, output signal type, oscillation output enable and time-keeping output.

The device address data includes: the device information includes spatial geographical location information of the device, mac (media access control) address information of the device, and ip (internet protocol) address information of the device. The space geographic position information of the equipment is obtained by extracting longitude and latitude information calculated by the synchronous equipment.

The device performance data includes: performance type, data reporting state, monitoring period, monitoring start time, monitoring end time and monitoring port information.

The alarm information data contains current alarms and historical alarms, and each piece of alarm information contains: alarm number, network element name, equipment component status, alarm source, alarm level, alarm reason, alarm time, confirmation status, manufacturer, area.

The external data is acquired in a file or interface input mode, and comprises the following steps: device class data.

Step 2: and monitoring the transmitted data, processing the data according to the equipment address data, and drawing a topological resource map of the synchronous network.

Specifically, the device data is monitored by two modes, namely a synchronous clock type and a synchronous connection.

The topological resource map of the synchronous network comprises a physical view, a logical view and a Data Communication Network (DCN) view, and meets the visualization requirement of monitoring of the synchronous network. And (2) displaying the synchronous network equipment on the map through the equipment space geographic position data acquired in the step (1), selecting certain equipment on the map, and displaying the equipment state data, performance data, alarm data, mac address and ip address. And the logic view of the synchronous network displays the configuration information of the synchronous network according to the equipment level. The DCN view of the synchronization network mainly shows the listing of the synchronization devices in an arrangement.

On the basis of generating the visual view, the equipment alarm data can be counted, and the alarm information can be screened through equipment brands, equipment types, areas and alarm levels.

Example two

The present embodiment aims to provide a monitoring system for a synchronous network, which implements network level management of the synchronous network by collecting and processing data reported by time-frequency synchronous devices of all brands in the synchronous network, obtains device performance and alarm data, and implements management of the time-frequency synchronous devices and expansion of future clock devices. The method comprises the following steps: the method comprises the steps of monitoring a synchronous network, monitoring equipment of the synchronous network in real time, configuring and issuing, carrying out equipment management and network maintenance from the perspective of a network and a system, and supporting basic functions of configuration management, alarm management, performance management, topology management, safety management, operation and maintenance management and the like by a management system. The system comprises: synchronous network, server and client. The server is in communication connection with the equipment in the synchronous network and can also establish communication connection with the client.

The connection between the server and the equipment in the synchronous network is established by two protocol modes of TL1 and SNMP. The server stores the configuration data of the equipment into a system database in real time, stores the alarm and performance data of the equipment into the system database in real time, actively monitors or passively receives information such as performance, alarm, event, safety, operation and the like from a terminal through TL1 and an SNMP protocol, stores and manages the state, slot position information, board card port state and alarm, performance, event, safety, operation information and configuration information of all equipment in the network, sends setting information through the SNMP protocol,

further, the TL1 protocol establishes connections with devices through secondary development of the open source software package telnet of the Apache software foundation. The equipment is connected with the equipment through the Telnetclient in a first connection request, the equipment is cached after connection, and the cached connection is preferentially selected when connection is established next time, so that only one connection is kept in the operation process, the condition that the management card cannot be connected due to excessive TL1 connection is avoided, and meanwhile, the resource consumption in the connection process is reduced. After the connection is successfully established, the IO stream is operated, a TL1 command is written into the output stream, return data is read from the input stream, and one interaction with the equipment is completed. After the connection is established, a monitor is registered at the same time, the report information of the synchronous equipment is acquired, and the data transmission of the equipment is completed.

Further, the SNMP protocol establishes a connection with a device using SNMP 4J. And creating an SNMP object and an SNMP instance, writing a request address, finding a corresponding OID in the MIB file according to a request command, writing a PDU (protocol data Unit), and obtaining a return result. And acquiring the external broadcast of the equipment through the monitoring port, acquiring the equipment report message and finishing the equipment data transmission.

The server is configured to include:

the system management module provides self management functions such as system starting, initialization, closing, backup and the like, provides a link monitoring function between the network manager and the equipment, and once the link fails, the system can remind a user in time and provide corresponding safety and fault recovery functions. The method comprises the following steps:

and the safety management unit is used for realizing user management and weighted equipment management, and realizing user level division, user addition, user deletion, user locking, user unlocking, user information inquiry, user password modification, user information statistics and the like. And the authority division management of areas, equipment, management authority and menu authority is supported.

And the log management unit is used for realizing detailed recording of the system log, the operation log and the safety log and supporting basic management of the log.

The interface management unit supports management of a south interface and a north interface, the south interface is used for collecting various data, and the north interface is used for providing various data (alarm, performance and equipment information) for a third-party system (client). Wherein the southbound interface includes a standard interface and a transmission protocol for different brands.

The network management monitoring unit supports the self management of the system, the basic management of software and hardware, the management of data and the remote maintenance management of software.

A network element management module, comprising: a network element configuration unit, a network element management unit and a configuration information statistic unit. In particular, the amount of the solvent to be used,

the network element configuration unit can realize slot position management, and a user can manage slot position information of a whole network element or manage information of a single slot position. The method and the system can realize the inquiry of the board card information, and a user can manage the board card information of the network elements of the whole network or inquire the information of a single board card.

The network element management unit can realize network element management, and a user can newly add, modify and inquire the whole network or a single network element. The network element configuration comprises satellite module configuration, clock module configuration, input module configuration, output module configuration and IP address configuration, and the configuration content comprises priority configuration, enabling configuration and mode configuration. The network element management displays the detailed information of each network element in a form of a table, and can add a new network element, delete the network element and modify the network element. The network element information can be screened by the equipment name, the equipment brand and the equipment type, and can be printed and exported.

And the configuration information statistical unit can present the whole network configuration information and the statistical analysis result to a user in a report form (table or graph). And generating a corresponding report according to the report content and format set by the user and the report generation time, and printing or outputting the report in a specified format to other peripheral storage equipment according to the user. For example, the configuration information statistics is in the form of bar graphs, data is visualized, and the data is classified and displayed by board card statistics, equipment brands, equipment models and network element types, so that printing can be performed.

And the network management module comprises a physical topology management unit, a logic topology management unit and a system topology management unit. In particular, the amount of the solvent to be used,

and the physical topology management unit positions all network elements and network element groups on the map in a map form and monitors the network elements and the network element groups in a link connection mode. The network topology can dynamically display the running state and the condition of the whole network in real time. Specifically, new equipment can be created on a map interface in the physical view, the equipment displayed on the map can be screened through province, equipment type and equipment brand, any equipment on the map is selected, details of the equipment can be displayed in the interface, and alarm information related to the equipment is displayed in a linkage mode through an alarm information monitoring result.

The logic topology management unit can display a whole network or a hierarchical logic topology view, supports basic operation functions of viewing, positioning, zooming and navigation, and can dynamically display the operation state of the managed whole network in real time. Specifically, the logical topology management may establish a new device in the logical view, set a device position by dragging a mouse, and establish a logical relationship between devices by setting operations such as a start point of a synchronous link and a synchronous link path.

The system topology management unit supports basic operations of DCN query and modification, supports basic operation functions of viewing, positioning, zooming and navigation, and can dynamically display the running state of the administered synchronous network in real time.

And the monitoring management module comprises a performance monitoring unit and an alarm monitoring unit. In particular, the amount of the solvent to be used,

the performance monitoring unit can set performance monitoring parameters and inquire/modify the performance monitoring parameters; and, a standard template line graph can be set for comparing and monitoring the performance, for example, the current MTIE performance line graph of the device can be displayed and compared with the template line graph.

The alarm monitoring unit provides the inquiry and statistical functions of the current alarm or the historical alarm, provides the output function of the alarm inquiry or statistical information, supports the alarm statistical template and supports the display of all the alarm quantities of all levels on the interface. Specifically, the alarm management lists details of current alarms and historical alarm information in a table form, the alarm information can be screened through equipment brands, equipment names, areas, alarm sources, alarm levels, alarm states, alarm reasons, alarm codes and alarm time, the alarm information can be printed or exported, and any piece of alarm information in the table can be confirmed, cleared, checked, remarked and the like.

And the operation and maintenance management module comprises a data statistics unit, a comprehensive analysis unit, an annual report unit, an adjustment recording unit and an environment management unit. In particular, the amount of the solvent to be used,

and the data statistics unit comprises topology information statistics, configuration information statistics, log statistics, user statistics, alarm statistics and performance statistics.

The comprehensive analysis unit supports various comprehensive analyses of various factor influences, including environmental influence performance, fault analysis, configuration performance, fault analysis, time interval influence performance and fault analysis, intelligent early warning and alarm processing rules. For example, the comprehensive analysis comprises equipment fault model analysis and equipment fault brand analysis.

And the annual report unit supports the functions of an annual schedule, a statistical report and an operation adjustment report. The maintenance plan, the statistical form, the big event log record book and the database can be edited to collect and create the maintenance information, the network topology configuration information, the network operation condition and the operation management information of the network.

And the adjustment recording unit supports record query of adjustment such as implementation and reconstruction of a synchronous network, facilitates the operation and inspection personnel to call adjustment reasons at any time, and provides guidance for next similar adjustment processing.

The environment management unit supports the configuration of an equipment environment data acquisition automatic strategy (time, period and environment parameters) or manually input set environment data; and environmental data query is supported, and the current environmental temperature and humidity data of the equipment are displayed in a form of a table.

The management and configuration module receives the management and configuration information of the user through the client. Therefore, the remote control of the equipment is completed, the remote operation and maintenance operation of the equipment is realized, and optionally, remote upgrade can be performed.

The client also receives a visual view of the device data and statistical information. And receiving a view updating request, sending the view updating request to a server, and receiving an updated view for visualization, wherein the view updating request comprises a device data type requested to be displayed.

On the basis of the existing open source framework, a set of synchronous network management system is developed in the embodiment. The system development technical route comprises an interface display technology, a server development technology, a data access technology, a development platform, middleware and a database. The interface display technology is selected from HTML, JSP, Flex and JavaScript; the server development technology is selected as follows: JDK1.8, JavaEE5.0; the data access technology is selected as follows: JDBC; the type selection of the development platform is as follows: SG-UAP 3.0; the type selection of the middleware is as follows: SG-APS 3.0; the database model selection is as follows: SG-RDB 3.0 (Mysql). SLF4J is a simple journal facade serving a wide variety of journal systems. And the Infinispan-server distributed cache enables users to acquire data more quickly, efficiently and accurately. Apache-activemq message queue, publish message subscription messages and push messages. The system data display adopts a mature interface display technology and comprises Java Script and HTML; the system service fully absorbs the current popular internet architecture in the aspect of architecture design, and the overall implementation and design of the system are carried out by adopting an open source route mode, so that the independent controllability of the whole system technology is fully realized. The system interface mainly adopts WebService and Corba integration technology.

The invention provides a synchronous network monitoring method and a management system containing multi-brand synchronous equipment, which realize the monitoring and management of the synchronous equipment of different brands of a synchronous network, have the functions of real-time monitoring and configuration issuing of the synchronous network equipment, and carry out equipment management and network maintenance from the network and system perspective. The management system supports basic functions of configuration management, alarm management, performance management, topology management, safety management, operation and maintenance management and the like. The technical means of the operation, maintenance and management of the synchronous network is effectively improved, the operation state of the synchronous network is monitored in real time, the operation and maintenance difficulty of the synchronous network is reduced, and the safety and reliability of the synchronous network are improved, so that the operation stability of the network of the upstream equipment is improved. Furthermore, the technical constraint of equipment manufacturers on operation and maintenance units can be removed, the labor cost of operation and maintenance is effectively reduced, and the equipment maintenance cost is reduced.

The invention designs a Web application basic framework which is suitable for the development of an information management system and has high efficiency, stability, safety, flexibility, easy expansion and simple maintenance on the basis of the existing open source framework, and is internally provided with basic modules such as authority management, mechanism management, area management and the like and basic functions such as cache, Log, timing task, Excel import and export and the like, adopts related technologies such as Spring, jpa, echarts, Ehcache, Log4j, Shiro, Quartz, JSP and the like, and uses a snmp protocol and a tl1 protocol to access equipment.

The invention establishes various resource information bases and configuration information bases of the whole synchronous network, provides a basis for subsequent upgrading and capacity expansion so as to comprehensively master the performance parameters and the operation conditions of various objects of the whole synchronous network, further improves the operation maintenance management efficiency, saves the operation maintenance management cost, and provides powerful guarantee for the safe production of the company power grid and the high-efficiency management of enterprises.

The construction of the synchronous network management system is convenient for forming a uniform north-south interface, the synchronous network equipment management system capable of managing various manufacturers is built, the running condition and performance data of the synchronous equipment are accumulated, an expert library for analyzing and processing the faults of the synchronous network is formed, and data is provided for the operation and maintenance of the synchronous network and the model selection of the synchronous equipment.

The performance data and the fault library acquired by the synchronous network manager can provide comprehensive technical guidance and data basis for the reliability of the synchronous equipment, the performance analysis of the synchronous equipment, the upgrading of the synchronous equipment and the fault analysis of the synchronous equipment, and better service and safe production is realized.

Because the interfaces of the network management are uniform, operation and maintenance personnel can conveniently master the use method of the system, the talent culture period is shortened, and the network maintenance difficulty is reduced.

Those skilled in the art will appreciate that the modules or steps of the present invention described above can be implemented using general purpose computer means, or alternatively, they can be implemented using program code that is executable by computing means, such that they are stored in memory means for execution by the computing means, or they are separately fabricated into individual integrated circuit modules, or multiple modules or steps of them are fabricated into a single integrated circuit module. The present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and it should be understood by those skilled in the art that various modifications and variations can be made without inventive efforts by those skilled in the art based on the technical solution of the present invention.

Claims (10)

1. A synchronous network monitoring method is characterized by comprising the following steps:

acquiring equipment data in a synchronous network; the equipment data is obtained through a transmission protocol and a standard interface of a corresponding brand according to equipment brand information in the equipment data;

and visualizing the equipment data to generate a visualized monitoring view.

2. The synchronization network monitoring method of claim 1, wherein the device data comprises: device basic information, device address data, device status data, device performance data, device alarm data, and device class data.

3. The synchronization network monitoring method of claim 1, wherein the device status data comprises: management module state data, clock module state data, satellite module state data, input module state data, and output module state data.

4. The synchronous network monitoring method of claim 1, wherein the device address data comprises: the spatial geographical position information of the equipment, the MAC address information of the equipment and the IP address information of the equipment.

5. The synchronous network monitoring method of claim 1, wherein the views comprise a physical view, a logical view, and a data communication network view.

6. A synchronous network monitoring system, comprising: the system comprises a server and a synchronous network, wherein the server is in communication connection with equipment in the synchronous network; the server is configured to:

acquiring and storing equipment data transmitted by equipment in a synchronous network; the equipment data is obtained through a transmission protocol and a standard interface of a corresponding brand according to equipment brand information in the equipment data;

and receiving a visual monitoring request, and generating a visual monitoring view according to the equipment data.

7. The synchronous network monitoring system of claim 6, comprising: the device data transmitted by the devices in the synchronous network is actively monitored or passively received through the TL1 and the SNMP protocol.

8. The synchronous network monitoring system of claim 6, comprising: when the connection with the equipment is established through a TL1 protocol, caching the equipment after each equipment is connected to a server for the first time, and preferentially selecting the cached connection when the server is connected with the equipment; the SNMP protocol uses SNMP 4J to establish a connection to a device.

9. The monitoring system of claim 6, further comprising a client communicatively coupled to the server; for receiving configuration data for a device, and for receiving a visual view of the device data.

10. The monitoring system of claim 9, wherein the client receives a view update request to send to the server and receives an updated view for visualization, wherein the view update request includes a device data type requested for display.

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