CN103701213A - One-station real-time dispatching management-execution-monitoring method and system - Google Patents

Abstract

The invention provides one-station real-time dispatching management-execution-monitoring method and system, which can realize one-station real-time dispatching management-execution-monitoring of a safety zone-crossing service request driven by business cooperation flow on the basis of two-way physical isolating devices arranged at different safety zones, and effectively solve the cross-zone real-time dispatching problem of a complicated power system. The system comprises a dispatching and running cockpit, a dispatching monitoring system and a dispatching and running system which are in a safety zone I and a safety zone II, and a dispatching management system which is in a safety zone III, and a forward and reverse isolating device is arranged between the safety zone I as well as the safety zone II and the safety zone III; the dispatching and running cockpit is connected with the forward and reverse isolating device through a running service bus, the forward and reverse isolating device is connected with the dispatching management system in the safety zone III through a running service bus in the safety zone III; and a cross-zone service engine is arranged in the dispatching and running cockpit and used for realizing the fusion, the forward and reverse transmission and cross-zone safety verification of the cross-zone service request information of the safety zone III.

Description

A kind of method and system of one-stop Real-Time Scheduling management-carry out-monitoring

Technical field

The present invention relates to Power System Intelligent dispatching technique field, particularly relate to a kind of method and system of one-stop Real-Time Scheduling management-carry out-monitoring.

Background technology

Electric power secondary system is divided into different safety operation areas, the difference of reflection Liao Ge district operation system importance.Different security protection requirements has been determined in different places of safety, thereby has determined different safe classes and protection level.Between HeⅢ district, safe I district & II district, carry out physical isolation, requiring has the highest security protection intensity, is the laterally main points of protection of safe I district & II district.Forward and reverse spacer assembly is the xegregating unit that is placed on safe I district & II district and safe III interval, it can delimit clear and definite secure border, identify and shield illegal request, effectively prevent from crossing over the data access of authority, improve supervisory control system to likely causing attack, the virus of power grid security accident, the defence level of divulging a secret etc., eliminate most potential safety hazards, guarantee safe operation of power system.Forward spacer assembly is mainly used in safe I district & II district to the one-way data transmission in safe III district, and configures corresponding forward virtual ip address for two ends server; And reverse isolation device is mainly used in safe III district to the one-way data transmission in safe I district & II district, and for the corresponding oppositely virtual ip address of two ends server configuration.Physical isolation apparatus delimited secure border, and the controllability of network is strengthened, and be convenient to internal control, bring inconvenience also to a certain extent the communication of different places of safety simultaneously.In electric power safety I district & II district, how to realize the seamless cooperation of a plurality of dispatching management information systems in YuⅢ district, this is the difficult point of intelligent scheduling technology, not only need to meet under the prerequisite of security protection requirement, eliminate different security partitionings, different operating station, different system and switch inconvenient operation, the Efficiency Decreasing problem of bringing to dispatcher, also need to consider information security, the transregional data transmission efficiency in safe I district & II district, multi-source heterogeneous system is seamless information fusion efficiency.

In current electric power dispatching system, Dispatching circulation process is generally that 1. dispatcher scents a hidden danger by real-time grid monitoring system; 2. login submit operation ticket in the power dispctching MIS, operation order, after high-level leader's audit is passed through, is notified dispatcher automatically; 3. the dispatcher plant stand operations staff that orders carries out; 4., after plant stand operational staff is finished, feed back to dispatcher; If gone wrong in implementation, make a phone call to link up countermeasure; 5. dispatcher monitors electric network state by real-time monitoring system, and assessment hidden danger solves state; 6. dispatcher, by scheduling management information system, finishes this work ticket.In above process, mainly contain three problems: 1. dispatcher need to frequently be switched at the power dispctching MIS interface and real-time grid monitoring system interface; 2. the process that dispatcher can not Real-Time Monitoring work ticket carries out, can only passively wait for; 3. dispatcher needs manually from different system, get partial information and merge.

Summary of the invention

The present invention is directed to the defect that prior art exists, a kind of method and system of one-stop Real-Time Scheduling management-carry out-monitoring is proposed, the two-way physical isolation apparatus of installing based on different security intervals, realize the one-stop Real-Time Scheduling management-carry out-monitoring of the cross-safety zone service request of business collaboration Flow driving, effectively solve the transregional Real-Time Scheduling problem of complicated electric power system, realized management, execution, the scheduling of monitoring one-stop intelligent.

Technical solution of the present invention:

A kind of method of one-stop Real-Time Scheduling management-carry out-monitoring, it is characterized in that, management and running driving cabin in safe I district & II district arranges transregional service-Engine, for realizing fusion, forward and reverse transmission and the transregional safety verification with the transregional service request information in safe III district, comprise the following steps:

1. dispatcher submits to the transregional service request of business to transregional service-Engine by management and running driving cabin; 2. transregional service-Engine analysis request is also determined fusion rule; 3. transregional service-Engine, by forward and reverse spacer assembly safety verification, forwards service request and information fusion rule to corresponding transregional dispatching management information system; 4. the data that transregional dispatching management information system extraction needs send to same district service bus and notify transregional service-Engine; 5. transregional service-Engine notifies after by forward and reverse spacer assembly safety verification management and running driving cabin to receive fused data; 6. management and running driving cabin receives described fused data, and dispatcher sees fuse information by management and running driving cabin, completes in real time dispatching management, execution, the one-stop collaborative scheduler task of monitoring.

Described transregional service-Engine adopts multi-source heterogeneous information fusion method to determine real time fusion rule and the online fusion rule of decision information of multi-source heterogeneous information; Described multi-source heterogeneous information fusion method comprises three ranks: the first order is data fusion level, and the second level is Fusion Features level, and the third level is Decision fusion level; Derive from the data of Real-Time Scheduling supervisory control system, data dispatching acquisition system, scheduling information management system after preliminary treatment, carry out first order data fusion, the step of described first order data fusion is followed successively by Data correction, data correlation, attribute fusion; Data after described first order data fusion are carried out second level Fusion Features and third level Decision fusion again, and described second level Fusion Features and third level Decision fusion are to carry out Fusion Features assessment and the assessment of the Decision fusion of the action that may take in conjunction with the information of dynamic data base; Described dynamic data base is that a dynamic service flow process merges storehouse and multidate information merges Optimal Decision-making storehouse.

A kind of system of one-stop Real-Time Scheduling management-carry out-monitoring, it is characterized in that, be included in the management and running driving cabin, Dispatching monitor and control system, management and running system in safe I district & II district and at the dispatching management information system in safe III district, between described safe I district & II district and safe III district, there is forward and reverse spacer assembly; Described management and running driving cabin is connected with Dispatching monitor and control system, management and running system respectively, and connecting forward and reverse spacer assembly by operation service bus, described forward and reverse spacer assembly is connected with the dispatching management information system in safe III district by the operation service bus in safe III district again; Described management and running driving cabin arranges transregional service-Engine, for realizing fusion, forward and reverse transmission and the transregional safety verification with the transregional service request information in safe III district.

Described transregional service-Engine comprises multi-source heterogeneous information fusion module, described multi-source heterogeneous information fusion module comprises first order data fusion submodule, second level Fusion Features submodule, the third level Decision fusion submodule connecting successively, and described first order data fusion submodule connects Real-Time Scheduling supervisory control system, data dispatching acquisition system, scheduling information management system by pretreatment module; Described second level Fusion Features submodule, third level Decision fusion submodule connect respectively operation flow and merge and Optimal Decision-making dynamic data base.

Described first order data fusion submodule comprises Data correction unit, data correlation unit and the attribute integrated unit connecting successively, described Data correction unit connects pretreatment module, and described Data correction unit, data correlation unit and attribute integrated unit connect respectively second level Fusion Features submodule.

The technology of the present invention effect:

The method and system of a kind of one-stop Real-Time Scheduling management-carry out-monitoring that the present invention proposes, the two-way physical isolation apparatus of installing based on different security intervals, set up transregional business collaboration service-Engine and fusion rule, by dispatching management, carry out in real time, effective monitoring is in real time merged, pass through workflow, flow of power, information flow is combined closely, realized the one-stop Real-Time Scheduling management-carry out-monitoring of the cross-safety zone service request of business collaboration Flow driving, effectively solve the transregional Real-Time Scheduling problem of complicated electric power system, realized management, carry out, the scheduling of monitoring one-stop intelligent.The method of this active dispatching management monitoring, with respect to traditional passive dispatching management and passive monitoring method, has in real time, efficient, the advantage of intelligence.

The present invention is the dispatching management across power system security I district, HeⅢ district, II district that drive of a kind of operation flow cooperation, carries out in real time, monitors integrated dispatching method.Its solve be positioned at safe I district & II district dispatcher need to be under same work station interface by the seamless fusion of a plurality of application systems that is deployed in different places of safety (as dispatching management information system (III district), real time execution (I district & II district), supervisory control system (I district & II district)), the problem of real-time tracking dispatching management-execution-monitored results.The present invention is based on the forward and reverse spacer assembly of physics, set up the cross-safety zone dispatch service request mechanism based on business collaboration, realized one-stop Real-Time Scheduling management-carry out-monitoring.Adopt in this way, guaranteeing under the condition of different places of safety information security, dispatcher can be at the system operation interface (as management and running driving cabin) in safe I district & II district, complete in real time dispatching management, execution, the one-stop collaborative scheduler task of monitoring, avoid the operation of frequently switching a plurality of system interfaces and work station.The present invention is the integrated dispatching method that a kind of active dispatching services collaboration process drives, and compares traditional passive type scheduling management, execution, supervisory control system separately shows and the method for operation, has advantages of cross-safety zone, efficient, the scheduling of working in coordination with, become more meticulous.The fusion rule model extension that business collaboration of the present invention drives is strong, be applicable to multi-field, Multi-stage scheduling system, be not only applicable to the intelligent scheduling of complicated electric power system, be applicable to the application such as real-time intelligent dispatch automated system, the application of management and running driving cabin, intelligent city's scheduling, intelligent traffic dispatching of other complicated control centres yet.

Accompanying drawing explanation

Fig. 1 is the flow chart of the method for one-stop Real-Time Scheduling management-carry out-monitoring of the present invention.

Fig. 2 is the system construction drawing of one-stop Real-Time Scheduling management-carry out-monitoring of the present invention.

Fig. 3 is the structural representation of the multi-source heterogeneous information fusion module of the present invention.

Embodiment

Below in conjunction with accompanying drawing, embodiments of the invention are further described.

The present invention is cross-safety zone request-service mechanism that business collaboration drives, and realizes the method for the one-stop dispatching management in cross-safety zone, execution, monitoring.As shown in Figure 1, be the flow chart of the method for one-stop Real-Time Scheduling management-carry out-monitoring of the present invention.

A kind of method of one-stop Real-Time Scheduling management-carry out-monitoring, it is characterized in that, management and running driving cabin in safe I district & II district arranges transregional service-Engine, for realizing fusion, forward and reverse transmission and the transregional safety verification with the transregional service request information in safe III district, comprise the following steps:

1. dispatcher submits to the transregional service request of business to transregional service-Engine by management and running driving cabin; 2. transregional service-Engine analysis request is also determined fusion rule; 3. transregional service-Engine, by forward and reverse spacer assembly safety verification, forwards service request and information fusion rule to corresponding transregional dispatching management information system; 4. the data that transregional dispatching management information system extraction needs send to same district service bus and notify transregional service-Engine; 5. transregional service-Engine notifies after by forward and reverse spacer assembly safety verification management and running driving cabin to receive fused data; 6. management and running driving cabin receives described fused data, and dispatcher sees fuse information by management and running driving cabin, completes in real time dispatching management, execution, the one-stop collaborative scheduler task of monitoring.

Main contents of the present invention mainly comprise cross-safety zone Grid Information Service Mechanism and Real-Time Scheduling management-execution-monitoring business flowpath rule.Cross-safety zone Grid Information Service Mechanism is based on the forward and reverse spacer assembly of physics, set up different places of safety service request-safety verification-service response-mechanism, dispatcher, under same management and running driving cabin system interface, submits transregional service request to, triggers transregional business collaboration service-Engine.By (following forward and reverse physical isolation apparatus safety standard) after transregional business collaboration service-Engine safety verification, the management system respond services request that place of safety III is corresponding is also merged information needed and returns results (with XML form, returning) according to business collaboration information fusion rule.

As shown in Figure 2, be the system construction drawing of one-stop Real-Time Scheduling management-carry out-monitoring of the present invention.

A kind of system of one-stop Real-Time Scheduling management-carry out-monitoring, be included in the management and running driving cabin, Dispatching monitor and control system, management and running system in safe I district & II district and at the dispatching management information system in safe III district, between safe I district & II district and safe III district, there is forward and reverse spacer assembly; Management and running driving cabin is connected with Dispatching monitor and control system, management and running system respectively, and connecting forward and reverse spacer assembly by operation service bus, forward and reverse spacer assembly is connected with the dispatching management information system in safe III district by the operation service bus in safe III district again; Management and running driving cabin arranges transregional service-Engine plug-in unit, for realizing fusion, forward and reverse transmission and the transregional safety verification with the transregional service request information in safe III district.Wherein, transregional service-Engine plug-in unit comprises multi-source heterogeneous information fusion module, and multi-source heterogeneous information fusion module is for determining real time fusion rule and the online fusion rule of decision information of multi-source heterogeneous information.

As shown in Figure 3, be the structural representation of the multi-source heterogeneous information fusion module of the present invention.Comprise the first order data fusion submodule, second level Fusion Features submodule, the third level Decision fusion submodule that connect successively; First order data fusion submodule connects Real-Time Scheduling supervisory control system, data dispatching acquisition system, scheduling information management system by pretreatment module; Second level Fusion Features submodule, third level Decision fusion submodule connect respectively operation flow and merge and Optimal Decision-making dynamic data base.First order data fusion submodule comprises Data correction unit, data correlation unit and the attribute integrated unit connecting successively, Data correction unit connects pretreatment module, and Data correction unit, data correlation unit and attribute integrated unit connect respectively second level Fusion Features submodule.

Transregional service-Engine adopts multi-source heterogeneous information fusion method to determine real time fusion rule and the online fusion rule of decision information of multi-source heterogeneous information; Information fusion technology results from radar target recognition problem (nineteen thirty-seven) the earliest, is a kind of automated information comprehensive treatment technique that formation and development is got up in the eighties in 20th century, since the nineties in 20th century so far, at home and abroad paid much attention to always.Information fusion be utilize computer technology to the observation information of the multi-source obtaining chronologically under certain criterion in addition automatic analysis, comprehensively to complete required decision-making and to estimate the information process of task, information fusion is for specific objective, to the data from multi-source with information combines or integrated treatment, obtain estimating and reasoning decision information than the more reliable situation in single piece of information source.Multi-source heterogeneous information fusion method comprises three ranks: the first order is data fusion level, and the second level is Fusion Features level, and the third level is Decision fusion level; Derive from the data of Real-Time Scheduling supervisory control system, data dispatching acquisition system, scheduling information management system after preliminary treatment, carry out first order data fusion, the step of first order data fusion is followed successively by Data correction, data correlation, attribute fusion; Data after first order data fusion are carried out second level Fusion Features and third level Decision fusion again, and second level Fusion Features and third level Decision fusion are to carry out Fusion Features assessment and the assessment of the Decision fusion of the action that may take in conjunction with the information of dynamic data base; Described dynamic data base is that a dynamic service flow process merges storehouse and multidate information merges Optimal Decision-making storehouse.The present invention, by SOA framework, supports a plurality of application system operation flows to merge and business collaboration fusion.In whole process, all operation assistance services are all transparent to dispatcher, monitoring, decision-making thereby dispatcher can concentrate one's energy.

Consider that dispatching services procedure merging information has space-time dynamic, patent of the present invention is set up management-carry out-monitoring fusion rule model with production rule blending algorithm.Online and real-time approval process wherein merges and real-time implementation can be adjusted according to actual conditions with real-time monitor procedure fusion rule.As table one, be the management of one-stop Real-Time Scheduling operation order, operation, monitoring business collaboration process fusion rule.

Table one: one-stop operation order condition managing-execution-monitoring fusion rule

Claims (5)

1. the method for one-stop Real-Time Scheduling management-carry out-monitoring, it is characterized in that, management and running driving cabin in safe I district & II district arranges transregional service-Engine, for realizing fusion, forward and reverse transmission and the transregional safety verification with the transregional service request information in safe III district, comprise the following steps:

1. dispatcher submits to the transregional service request of business to transregional service-Engine by management and running driving cabin; 2. transregional service-Engine analysis request is also determined fusion rule; 3. transregional service-Engine, by forward and reverse spacer assembly safety verification, forwards service request and information fusion rule to corresponding transregional dispatching management information system; 4. the data that transregional dispatching management information system extraction needs send to same district service bus and notify transregional service-Engine; 5. transregional service-Engine notifies after by forward and reverse spacer assembly safety verification management and running driving cabin to receive fused data; 6. management and running driving cabin receives described fused data, and dispatcher sees fuse information by management and running driving cabin, completes in real time dispatching management, execution, the one-stop collaborative scheduler task of monitoring.

2. the method for one-stop Real-Time Scheduling management according to claim 1-carry out-monitoring, it is characterized in that, described transregional service-Engine adopts multi-source heterogeneous information fusion method to determine real time fusion rule and the online fusion rule of decision information of multi-source heterogeneous information; Described multi-source heterogeneous information fusion method comprises three ranks: the first order is data fusion level, and the second level is Fusion Features level, and the third level is Decision fusion level; Derive from the data of Real-Time Scheduling supervisory control system, data dispatching acquisition system, scheduling information management system after preliminary treatment, carry out first order data fusion, the step of described first order data fusion is followed successively by Data correction, data correlation, attribute fusion; Data after described first order data fusion are carried out second level Fusion Features and third level Decision fusion again, and described second level Fusion Features and third level Decision fusion are to carry out Fusion Features assessment and the assessment of the Decision fusion of the action that may take in conjunction with the information of dynamic data base; Described dynamic data base is that a dynamic service flow process merges storehouse and multidate information merges Optimal Decision-making storehouse.

3. the system of one-stop Real-Time Scheduling management-carry out-monitoring, it is characterized in that, be included in the management and running driving cabin, Dispatching monitor and control system, management and running system in safe I district & II district and at the dispatching management information system in safe III district, between described safe I district & II district and safe III district, there is forward and reverse spacer assembly; Described management and running driving cabin is connected with Dispatching monitor and control system, management and running system respectively, and connecting forward and reverse spacer assembly by operation service bus, described forward and reverse spacer assembly is connected with the dispatching management information system in safe III district by the operation service bus in safe III district again; Described management and running driving cabin arranges transregional service-Engine, for realizing fusion, forward and reverse transmission and the transregional safety verification with the transregional service request information in safe III district.

4. the system of one-stop Real-Time Scheduling management according to claim 3-carry out-monitoring, it is characterized in that, described transregional service-Engine comprises multi-source heterogeneous information fusion module, described multi-source heterogeneous information fusion module comprises first order data fusion submodule, second level Fusion Features submodule, the third level Decision fusion submodule connecting successively, and described first order data fusion submodule connects Real-Time Scheduling supervisory control system, data dispatching acquisition system, scheduling information management system by pretreatment module; Described second level Fusion Features submodule, third level Decision fusion submodule connect respectively operation flow and merge and Optimal Decision-making dynamic data base.

5. the system of one-stop Real-Time Scheduling management according to claim 4-carry out-monitoring, it is characterized in that, described first order data fusion submodule comprises Data correction unit, data correlation unit and the attribute integrated unit connecting successively, described Data correction unit connects pretreatment module, and described Data correction unit, data correlation unit and attribute integrated unit connect respectively second level Fusion Features submodule.

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