CN105491164B - SIS network diagnosis methods based on distributed intelligence monitoring arrangement and data analysis center - Google Patents

Abstract

A kind of SIS network diagnosis methods based on distributed intelligence monitoring arrangement and data analysis center, are made of distributed intelligence monitoring arrangement and data analysis center.Intelligent surveillance device is distributed on the network terminal of SIS nodes at different levels, is monitored and is diagnosed the machine and applets activity in real time and report to even higher level of node in time；Data analysis center is in top mode, and responsible reception summarizes each intelligent surveillance device information, and carries out analyzing processing, forms network diagnosis and reports real-time display, for IT maintenance personnel's inspections.

Description

SIS network diagnosises based on distributed intelligence monitoring arrangement and data analysis center Method

Technical field

The present invention relates to the network diagnosis methods of plant level supervisory information system (SIS) a kind of, especially a kind of based on distribution The SIS network diagnosis methods of formula intelligent surveillance device and data analysis center.

Background technology

Power plant level supervisory information system (SIS) is that collection process monitors in real time, optimal control and Technical innova- tion are one The level of factory automatic information system of body is in thermal power plant Distributed Control System DCS and related auxiliary stored program controlled and Quan Chang A set of real-time plant level supervisory information system between management information system MIS, major function include the operating condition monitoring of unit, statistics Report, performance calculating, power consumption analysis, performance analysis and fault diagnosis etc..

SIS needs, by computing engines such as data mining, Data treatment and optimizations, to realize the operation to unit or even full factory Operating mode is analyzed, diagnosed and is optimized, and calculates analysis accurately and timely to realize, then the real-time of system is most important.And it is current Each power plant SIS lacks the judgement to real-time property, and the information of data outage has been discovered even by means such as trend analyses, It can not determine interruption position, and because it is found that the time is too late, the shortage of data that can not be retrieved is caused to system.

The network management software currently on the market is although various in style, and has been carried out modularization framework, but due to all Just for LAN, the network structure of the inter-networks locks such as similar SIS, cross-system can not be applied to, therefore executed and complete at present The SIS network O＆Ms of knot all only rest on the artificial level investigated one by one that goes wrong, it is difficult to ensure the real-time standard of SIS data Really, availability is relatively low.

Invention content

To improve SIS availabilitys, ensures SIS real-times and reliability, reduce the working strength of operation maintenance personnel.The present invention Each node that a set of intelligent surveillance device is distributed in SIS networks is provided, in real time feeds back to monitoring information in data analysis The heart forms SIS network diagnosises report.The present invention will effectively solve the problems, such as follows：Maintenance personnel is helped to find in SIS data in time Disconnected problem；It helps maintenance personnel to position SIS data interruption position, reduces the input of maintenance time；Maintenance personnel is helped to comb total Tie SIS network stabilizations and availability.

The invention discloses a kind of network diagnosis sides SIS based on distributed intelligence monitoring arrangement and data analysis center Method, described method includes following steps：

Step 1：Each interface message processor (IMP) intelligent surveillance device acquisition native network communication condition information and running state of programs information；

Step 2：By Information encapsulation described in step 1 at data message, and sent out in real time to database layer by udp protocol It send；

Step 3：The message information of each interface message processor (IMP) described in database layer intelligent surveillance device receiving step 1, if receiving super When then form time-out information；

Step 4：Database layer intelligent surveillance device acquires native network communication condition information and running state of programs information；

Step 5：Information described in database layer intelligent surveillance device encapsulation step 3 and step 4 forms message, and in real time It is sent to application service layer by udp protocol；

Step 6：The message information of database layer described in application service layer intelligent surveillance device receiving step 5, if receiving It is overtime then form time-out information；

Step 7：Application service layer intelligent surveillance device acquires native network communication condition information and running state of programs letter Breath；

Step 8：Information described in application service layer intelligent surveillance device encapsulation step 6 and step 7 forms message, and real When by udp protocol to data analysis center send；

Step 9：Message information described in data analysis center analyzing step 8 forms diagnosis report, if receiving time-out, The warning message with application service layer communication abnormality is then formed, maintenance personnel is fed back to.

The present invention compared with the existing technology, has the following technical effect that：

1) real-time.This method has the characteristics of real-time, can timely feedback, and operation maintenance personnel is helped to find at the first time It is abnormal.

2) accuracy.Since intelligent surveillance device is distributed in any node in SIS networks, so data analysis center Diagnosis report can be accurately positioned abnormal position, effectively reduce the repair time.

3) long-term effect.The diagnosis report of data analysis center can store for a long time, this will be interface (software and hardware) stability Assessment provides foundation, and availability calculating will be also integrated for system and provides foundation.

4) autgmentability.This method is directed to the network monitoring of across a network isolation, is not only able to realize the diagnosis of SIS networks, It can be applied to the network diagnosis of other cross-systems.

Description of the drawings

Fig. 1 is SIS schematic network structures according to the present invention；

Fig. 2 is the structure chart of intelligent surveillance device according to the present invention；

Fig. 3 is intellectual analysis network data flow graph according to the present invention.

Specific implementation mode

The present invention structure as shown in Figure 1, in each network nodes of SIS install intelligent surveillance device, utilize SIS networks Information System will be monitored to data analysis center, and form diagnosis report real-time exhibition.When there is Network Abnormal, data Analysis center color change will be carried out according to abnormal rank or pop-up is alarmed.

As shown in Fig. 2, according to SIS network structures, a whole set of intelligent surveillance device is divided into three-level distribution altogether, the first order is to connect Mouth layer, the second level is database layer, and the third level is application service layer, and monitoring information will finally be converged by application service layer in sequence Always arrive data analysis center.

As shown in figure 3, distributed intelligence monitoring arrangement of the present invention is divided into interface message processor (IMP) monitoring arrangement, database layer prison Intellectual analysis network is collectively formed with data analysis center in view apparatus and application service layer monitoring arrangement, these monitoring arrangements.Tool Body includes the following steps：

Step 1：Interface message processor (IMP) n intelligent surveillance devices acquire native network communication condition information and running state of programs information, These information include whether to receive the data message information of control system, the activity of native application (such as interface journey Sequence is whether normal operation etc.), native network connectivity, stability；

Step 2：By Information encapsulation described in step 1 at data message, and sent out in real time to database layer by udp protocol It send；

Step 3：The message information of interface message processor (IMP) n described in database n intelligent surveillance devices receiving step 1, if receiving time-out Then form time-out information, time-out alarm；

Step 4：Database n intelligent surveillance devices acquire native network communication condition information and running state of programs information, Whether these information include affiliated interface message processor (IMP) whether exception, database Cluster Service have abnormal (if using cluster mode portion If administration), whether disk array disk has abnormal (if being disposed using cluster mode), native application activity (such as database program whether normal operation etc.), native network connectivity, stability；

Step 5：Information described in database n intelligent surveillance devices encapsulation step 3 and step 4 forms message, and in real time It is sent to application service layer by udp protocol；

Step 6：The message information of database n described in application server n intelligent surveillance devices receiving step 5, if receiving It is overtime then form time-out information, time-out alarm；

Step 7：Application server n intelligent surveillance devices acquire native network communication condition information and running state of programs letter Breath, whether these information include affiliated database server an exception, native application activity (such as distribution platform, meter Calculate the application programs such as platform), native network connectivity, stability；

Step 8：Information described in application server n intelligent surveillance devices encapsulation step 6 and step 7 forms message, and It is sent in real time to data analysis center by udp protocol；

Step 9：Message information described in data analysis center analyzing step 8 forms diagnosis report；If receiving time-out, Then form the warning message with application service layer communication abnormality.Specific works include the monitoring information for parsing each monitoring arrangement, The working condition for solving each level SIS equipment calculates time interval (time-out calculates), in real time if monitoring information fails real-time reception It shows diagnosis report, and early warning or alarm is generated according to abnormal conditions.Diagnosis report and warning message Real-time Feedback are to maintenance Personnel, while equipment of the annual summary report to warn long-term existence problem is produced, storage diagnosis report is to maintain easily people Member's historical query.

Claims (1)

1. a kind of SIS network diagnosis methods based on distributed intelligence monitoring arrangement and data analysis center are based on thermal power plant SIS The network architecture is transmitted to data analysis center by monitoring nodal informations at different levels, and using SIS legacy networks, and formation is finally examined Disconnected report, the distributed intelligence monitoring arrangement include interface message processor (IMP) intelligent surveillance device, database layer intelligent surveillance device and Application service layer intelligent surveillance device, wherein the SIS is power plant level supervisory information system；It is characterized in that：

Step 1：Each interface message processor (IMP) intelligent surveillance device acquisition native network communication condition information and running state of programs information；

Step 2：By Information encapsulation described in step 1 at data message, and sent in real time to database layer by udp protocol；

Step 3：The message information of each interface message processor (IMP) described in database layer intelligent surveillance device receiving step 1, if receiving time-out Form time-out information；

Step 4：Database layer intelligent surveillance device acquires native network communication condition information and running state of programs information；

Step 5：Information described in database layer intelligent surveillance device encapsulation step 3 and step 4 forms message, and passes through in real time Udp protocol is sent to application service layer；

Step 6：The message information of database layer described in application service layer intelligent surveillance device receiving step 5, if receiving time-out Then form time-out information；

Step 7：Application service layer intelligent surveillance device acquires native network communication condition information and running state of programs information；

Step 8：Information described in application service layer intelligent surveillance device encapsulation step 6 and step 7 forms message, and leads in real time Udp protocol is crossed to send to data analysis center；

Step 9：Message information described in data analysis center analyzing step 8 forms diagnosis report, if receiving time-out, shape At the warning message with application service layer communication abnormality, maintenance personnel is fed back to.