WO2008148415A1 - Method and device for selectively changing operating data of a network component - Google Patents

Abstract

The invention relates to a method and device for selectively changing operating data of a network component in a network comprising at least two network components, wherein data, particularly communication data, can be processed in each network component, and the network components can be consolidated into a grouping within the network. Conventionally, the processing of data in the entire grouping is compromised by changing operating data in a network component in a grouping. In the method according to the invention, only the actual network components to be changed are selectively chosen by means of an allocation determination and separated from the network in order to change the operating data. An application accessing the network component to be changed is informed of the operating data change, and terminates communication with the network component to be changed for the duration of the operating data change. The data processing within the grouping and using the grouping is therefore compromised only to a very defined degree by means of the operating data change in a network component.

Description

description

Method and device for selectively changing operating data of a network component

The invention relates to a method and a device for selectively changing operating data of a network component in a network of at least two network components, wherein data can be processed in each network component and the network components can be combined to form a grouping within the network.

Each network consists of a number of components, which are usually called nodes, and the corresponding connections of the nodes as network lines. This basic structure of a network applies to any type of network, e.g. Communication or power supply networks. An essential requirement of a network is that the network remains stable even under unfavorable network conditions and does not collapse. At the same time, a network should always be easy to change, in particular expandable, so that additional network components can be easily and quickly integrated into the network or existing network components can be changed.

Electrical supply networks are characterized by a variety of electrical equipment and control systems, which serve exclusively to maintain a stable and constant supply of electrical energy.

Many network components in a network, such as transformers, circuit breakers, or protection devices in a power grid, often become fulfilling a special control function within the network Network summarized as so-called grouping. The control or regulation of the devices or groupings within a power supply network is usually followed by a coordinated control of at least a portion of the grouped in a group of electrical equipment in the power grid. Likewise, all electrical devices connected to the network via a common interface can be grouped together.

Due to the complexity of electrical energy supply networks, it is necessary for the data and parameters necessary for controlling the electrical energy supply network to converge centrally in a control room and, ideally, for the electrical devices to be specifically operated from the control room. Often, the electrical devices themselves have an internal control, which can be changed by means of a remote parameterization from the control center or directly on the electrical device by a responsible technician. For this purpose, the corresponding operating data and parameters of the electrical devices are read into an internal memory in the electrical devices and thus determine the device and thus operating characteristics of the electrical device within the electrical energy supply network.

Based on current load flow measurements or predictive models about future load flow within the electrical power supply system, the corresponding electrical equipment or the resulting combined groups in an electrical power grid ^¬ rule are triggered. For example, the WO 2006/040242 Al describes a method for controlling the electrical power quality in an electrical Energieversor ^¬ supply network. According to the local method are using the Investigation of defined parameters of the energy supply network Conclusions on the current or possible future states of the energy supply network are closed and in case of critical deviations the corresponding electrical devices are regulated. The same applies to a regulation of the grouped electrical equipment, in which particular operating data and parameters are changed.

No. 6,775,594 B1 describes a method for prioritizing and coordinating control of electrical generators distributed in a network by means of a computer network. With the aid of a computer network, so-called "distributed generators" are controlled in a coordinated manner via a computer network, in particular by means of a fuzzy logic, according to the local invention, a corresponding regulation is realized.

A disadvantage of the methods known in the prior art is that for the recording of new operating data and parameters in an electrical device that is part of a grouping of several electrical devices, the problem is that for importing the new operating data and parameters for an electrical appliance within the grouping, the electrical appliances of the entire grouping of

Disconnected network and only then read into the corresponding electrical device, the new operating data. When the electrical device is restarted on the basis of the new operating data and parameters, the further electrical devices of the grouping are also restarted and are thus only available again to the controller within the electrical energy supply network. Not only does this affect the communication of all electrical equipment inside and outside the grouping, which does not require any new operating data, but also the restart of the electrical equipment of the entire grouping is much more time-consuming than the restart of a single electrical appliance with new operating data.

Object of the present invention is therefore to provide a way to see the operating data of an electrical device within a grouping of electrical

Devices in a network, especially in an electrical power grid, quickly and easily change.

The problem is solved by the features of claim 1.

According to the invention, when changing the operating data of the network component as an electrical device within a grouping first the network component containing grouping determined by means of a mapping determination and the processing of the data, in particular the communication data is interrupted for the relevant network component due to consideration of the assignment determination, and Subsequently, the operating data of the selected network component changed and finally with the restart of the network component, the processing of the data is included within the network component again.

For the purposes of the present invention, all data and parameters are meant by the designator ^¬ voltage operating data which change the operating state and / or functional characteristics of from ^¬ selected network component as a whole or parts of the network component, such as interface or processing units, directly or indirectly. For the purposes of the present invention, the network component is understood as meaning all components within the network which actively or passively influence the state of the network, in particular control or regulate it. In addition to individual control and regulation components within the network, individual components with limited functionalities, such as cutting or measuring points, are also included.

The method according to the invention makes it possible to provide the change of the operating data of a network component with the least possible impairment of other network components, in particular also the network components that are combined in a grouping. According to the present invention, it is not necessary to interrupt the processing of the data for the electrical appliances of the entire grouping, but by means of the allocation determination it is possible to change the operating and / or functional behavior of a selectively selected electrical appliance as a network component in a grouping. This has the particular advantage that devices that are connected via a common communication interface with the network, in particular an e- lektrischen power supply network, not more than a whole grouping taken from the network and then restarted as a grouping, but only the electrical appliance to be changed must be changed as a network component. This significantly minimizes downtime of the network components throughout the network.

It is considered an advantage that the operating data affects the interface properties of the network component. The network components are in particular connected via a ge ^¬ my same interface to a grouping. So far the processing of the data, in particular of the communication data, for all electrical devices of a grouping was stopped, even if only the operating data of a single electrical device, in particular a common communication interface, had to be changed. By selecting the corresponding network component, be it as an electrical device or as a communication interface connecting a plurality of electrical devices, the network components that are not to be changed are not adversely affected by the method according to the invention. The connection to the non-changing network components therefore need not be interrupted, which increases the network security and the availability of the network.

In an advantageous embodiment of the method, it is provided that the determination of the change of the operating data takes place by means of the change of a log file of an operating system of a computer. The changed operating data is compiled in a log file (change log). Subsequently, it is determined for each electrical device whether a change has occurred and, in the event of a change, this is noted in a list. Then an application running in the network is notified that a data change will take place for certain electrical devices. Due to the allocation determination, the network components associated with the electrical device or affected by a change are determined and the communication is stopped and thus the off ^¬ exchange of data. The change of the operating data is carried out in the selected network components. After completing the change, the application is informed and, with changed operating data, reestablishes the connection to the changed network components. By means of the determined change in the log file in connection with the assignment determination, a determination of the relevant group pierung and / or the relevant network component, so that a list of the network components to be changed according to the present invention is generated.

Advantageously, it is provided that an application calling the network component is informed about the operating data to be changed, and the application then stops coordinated access to the data of the network component to be changed. Subsequently, the changed operating data are advantageously implemented in the relevant network component and then the newly configured network component is integrated into the network, so that the newly configured network components are available to the application again after the restart.

In an advantageous embodiment of the method, it is provided that, when changing the network, the assignment determination for the relevant grouping and / or network component is adapted. In the case of a change in the network configuration, a corresponding adaptation of the assignment determination is made, so that at any time the assignment determination maps the current network configuration of the network. This ensures that no erroneous selection of a no longer existing network component or an incomplete grouping takes place, so that possible error conditions due to inconsistent mapping of the network in the assignment determination are avoided.

Due to the widespread implementation of object-oriented programs, it is advantageously provided that the assignment determination for the change of operating data for a relevant network component can be represented as a representation object. The representation object is advantageously in a general memory (shared memory) can be stored and the representation object is changed only if the operating data for the connections to the relevant network component associated with the representation object changes. By using a common memory accessible in the network, all authorized points, such as the control room or certain network components, can access the general memory (shared memory) and store or change data, in particular operating data to be changed. This results in the advantage that the changed representation object is used centrally in the general memory (shared memory) for determining the relevant network component associated with the changed representation object, and it is not necessary to carry out a cyclical polling of the network components with regard to possible operating data to be changed. At the same time, the operating data to be changed and the associated network component are centrally managed in the general memory, so that possible change of the operating data of certain network components can be easily determined by possible changes of the corresponding representation objects.

It is considered an advantage that the grouping of the network component takes place with regard to a network interface or with regard to functionally connected network components. The grouping of the network components within the network takes place hierarchically, whereby the grouping combines only the network components of the respectively selected hierarchical level and the associated lower hierarchical levels. If several network components are grouped together, whereby certain network components have higher control and regulation functions than lower-level, so-called sub-network components, the selection of a specific network component with higher control and regulation functions only the associated sub-network components selected.

In an advantageous embodiment of the method, it is provided that the application calls a master process in the network component, wherein a subprocess (child process) for each network component can be called up by the master process. Through this software architecture, the master process running in the network has the option of controlling and monitoring the call and termination of a subprocess directly in the network component. This has the advantage that even if the subprocess fails, the central master process continues to be active and can terminate the subprocess. The corresponding network component is thus protected against a failure due to a faulty sub-process and thus does not affect the availability of the corresponding network component or parts of the network. Advantageously, the sub-process can be called up in the network component and registered in the assignment determination, wherein the application can interrupt and / or start the sub-process if necessary.

For better coordination of the individual network components in the case of a network component to be changed when selecting the sub-process in a network component using the assignment determination first informed of the sub-process dependent components, such as interfaces in the network component and stopped the relevant components of the network component. The assignment includes determining a list of all master processes and / or possible sub-processes, and connected therewith Netzwerkkomponen ^¬ th and / or components of a network component. The inventive method, it is possible that a clear and reproducible allocation determination of the network components is present and thus provides the basis for a secure network operation. Advantageously, the assignment determination sends on the basis of a message of the selected component of the network component in the network and all network components to be disconnected for this further network components perform an internal processing of the message and determine by means of a respective internal assignment determination a relevance of the message for the further processing of the respective Component and / or network component.

Advantageously, the assignment determination is a table. By means of the tabulation of the network components, the master and sub-processes and the interfaces, as well as their relationships with each other, an assignment of the components relevant for a change of the operating data can be determined quickly and easily. But also other forms of representation of the assignment determination, in particular object-based representations.

In a particular embodiment of the invention, the network is an energy supply network in which energy and data can be transmitted. In particular, the method according to the invention is suitable for controlling electrical energy supply networks. It is considered an advantage that the network component is an information device and / or monitoring device within a network component of the network.

As used herein, computer program means any term in any computer language, code or notation of a set of instructions that enables a computer system to process data and thus perform a particular function. The computer program, the computer program or the computer application is executable on the computer system either directly or after conversion into another language, code, notation or by presentation in another physical form.

Further advantageous embodiments of the invention are described in the subclaims. The object of the invention will be explained in more detail with reference to the following drawings with reference to selected embodiments. It shows:

Figure 1 is a schematic representation of the hierarchical structure of the network components within the electrical supply network.

2 shows a schematic representation of a front / end network ^component,

Fig. 3 is a sequence diagram for the start of a sub-process with subsequent registration in

Anwendungssuit manager;

4 is a sequence diagram for the termination of a

Subprocess after prior call of the separation of the network components from the power supply network;

5 shows a sequence diagram of the master process during activation of the network components.

1 shows a schematic representation of several network components 2a to 2k in a network 1, the network components 2a to 2k being connected to one another via interfaces 3a to 3c and corresponding connection lines are. Since several network components can also be connected as subsystems 2c to 2g via a single network component in the form of a data concentrator 2c to a further network component 2b via a common interface 3c, the problem in the past has been that when operating data and parameters are changed a central network component 2b the connections to other network components 2c to 2g via the interface 3c of the network component 2b had to be interrupted. As a result, according to the prior art, when changing a network component 2a to 2k, for example a front / end network component 2b, the other network components 2c to 2k connected to this front / end network component 2b are also removed from the network 1 had to be because there was a corresponding connection via the interfaces 3a to 3c with the front / end network component 2b. After importing the operating data to be changed into the front / end network component 2b, the corresponding interface 3c could again be operated again, and thus likewise all the network components 2c to 2g associated with it, in accordance with the previously known methods after the restart of the network component 2b.

By means of the present invention it is now possible, based on the assignment determination 9 (not shown), to selectively select exclusively the network components 2a to 2k to be changed or the network components 2j, 2k combined to form a group 4a and to change exclusively these network components 2j, 2k. The same applies to the incorporation and removal of Netzwerkkom ^¬ components 2a to 2k in the network 1, so that for example the introduction of a further downstream network component Fernwirkungs- 2d to 2g of a network component in the form of a data concentrator 2c is not the existing network components 2d to 2g impaired. By means of the assignment determination 9, for example a tabular set-up, it is possible to allocate 2a to 2k for the operating data to be changed and the network components to be changed so that the network components 2a to 2k to be changed can be determined unambiguously on the basis of the operating data to be changed.

In the example of FIG. 1, a distinction was made between a network component 2 a and the interface 3 a present in the network component for a clearer representation. For the purposes of the present invention, an interface 3 a to 3 c is also a network component 2 a to 2 g if its operating characteristics and conditions can be changed by a controller.

FIG. 2 shows a schematic view of a front / end network component 2 a, which is connected to the network 1 via an interface 3 a. Within the network component 2 a, a device manager 5 is implemented, which is based on a programming interface 6. The programming interface, abbreviated API (English: Application Programming Interface), can be implemented function-oriented or protocol-oriented. The programming interface 6 in turn is based on at least one protocol module 7, which is connected to the interface 3 a. As protocol modules 7, in particular standardized protocol modules 7, for example according to the standard IEC 101 or IEC 104 are used.

Figure 3 shows a sequence diagram of a chart representation according to the Unified Modeling Language (UML) ^¬ respect Lich the invocation of a sub-process 11 with subsequent registration in Anwendungssuit Manager 8, wherein the Masterpro- 10 (not shown) is managed by the application suite manager 8. To ensure a hierarchical access of the master process 10 to the sub-process 11, also called child process, all protocol modules 7 must have a selective activation of the network components 2a to 2k

(not shown), register in advance with the device manager 5. Subsequently, a registration takes place in the application suite manager 8 (ASRReserveAdressSpace) before the actual initialization (dmMain) of the protocol modules 7 to the device manager 5 takes place. After the initialization (dmMain), the device manager 5 is initialized at the application suite manager 8, with the device manager 5 then from the general memory 12 (not shown) as a shared memory a corresponding representation object 13 (SMMF) for the participating network component 2a to 2k loads (not shown). The selection of a representation object 13 from the general memory 12 by means of the assignment determination 9 (not shown). On the basis of the representation objects 12 present in the device manager 5 on the basis of the assignment determination 9, the relevant protocol modules 7 are initialized (dmlnitialize) and all network components 2a to 2k linked to the respective representation object 12 are initialized (dmDefineDevice) and the interfaces 3a to 3c connected therewith also called (dmDefinelnterface). With the integration of the network components 2a to 2k into the network 1 (not shown), the data connections to the other network components 2a to 2k are also initialized and released via the subprocess 11 (dmCfeChangelnterfaceState, dmCfeChangeDeviceState). Upon completion of the initialization of all power plant components ^¬ 2a to 2k integrated via a respective sub-process 11 in the network 1, and can process a Masterpro- 10 of Anwendungssuit manager 8 directly driven The initialization and termination of the subprocesses 11 can also be predetermined by the master process 10. An erroneous sequence of a subprocess 11 thus does not lead to a delayed processing of data or to a failure of the corresponding network component 2a to 2k, which can not be controlled from the outside, but the hierarchically higher-level master process 10 can be the subprocesses 11 terminate and ensure the availability of the corresponding network component 2a to 2k with a subsequent restart of the previously terminated subprocesses 11.

FIG. 4 shows a sequence diagram in the form of a diagram diagram according to the Unified Modeling Language (UML) for the termination of a subprocess 11 after prior call of the separation of the network components 2a to 2k (not illustrated) by the device manager 5, wherein the master process 10 (FIG. not shown) is managed by an application suite manager 8.

With the selection of a network component 2a to 2k to be changed by the assignment determination 9, the associated network components 2a to 2k are selected and taken for the upcoming recording of changed operating data from the network 1 (not shown). After selecting network components 2a to 2k to be changed based on the selection from the allocation table 9, for example due to a change of an associated representation object 13 (SMMF) in the general memory 12 (not shown), the device manager 5 initiates the termination of the subprocess 11 by ei - NEN call of the protocol module 7 to change the operating state of the selected network component 2a to 2k and the associated interface 3a to

3c (dmCfeChangeDeviceState, dmCfeChangelnfacheState). By this measure the data communication to the network compo- nents 2a to 2k and the corresponding interface 3a to 3c with the subsequent shutdown command (dmShut- Down) interrupted.

Subsequently, the current network state is adapted in the application suite manager 8 and in the general memory 12, so that the representation object 13 linked to the switched-off network component 2 a to 2 k is also adapted in the general memory 12. After changing the registration in the application suite manager 8 and in the general memory 12, the network components 2a to 2k or their interfaces 3a to 3c selectively deactivated by the network 1 can be changed by the implementation of changed or new operation data in the network components 2a to 2k or reconfigured. With the completion of the recording of the changed data, the relevant network component 2a to 2k can be reinitialized again in accordance with the method described in FIG.

FIG. 5 shows a sequence diagram as a diagram representation according to the Unified Modeling Language (UML) for calling a master process 10 managed by the application suite manager 8.

The master process 10 is mainly for monitoring and

Initiation of sub-processes 11 are responsible, which were not initiated despite the restart of the network component 2a to 2k or are still running. Thus, due to planned changes of network components 2a to 2k, the master process 10 monitors the subprocesses 11 as to whether these subprocesses 11 still running in the context of the evaluation of the allocation determination 9 (not shown) are to be ended in the "on-activation pending" phase (TerminateProcess Childs) If the "OnActivationPending" phase is completed and With the associated subprocesses 11 erroneously not started, the master process 10 monitors that all subprocesses 11 that are still necessarily to be initiated based on the evaluation of the assignment determination 9 are started (start child process). This ensures that no sub-processes 11 with corresponding associated network components 2a to 2k within the network 1 ^(¬ represents Darge) run, which are not necessary or are incorrect. As a result, the downtimes of the only selectively selected network components 2a to 2k and their interfaces 3a to 3c are reduced, thereby increasing the availability of the not affected by the change of the operating data part of network 1.

Claims

claims

1. A method for selectively changing operating data of a network component in a network of at least two network components, wherein in each network component, data can be edited, and the network components are grouped into a group, characterized in that when changing operating data of the network component first, the network component containing grouping and determined by means of a mapping determination the relevant network component and the processing of the dynamic data is interrupted for the relevant network component, then changed the operating data of the network component and finally the processing of the data is resumed within the network component.

2. The method of claim 1, wherein: the operating data influences the interface properties of the network component.

3. Method according to one of claims 1 or 2, characterized in that the determination of the change of the operating data takes place by means of the change of a log file of an operating system of a computer.

4. The method according to claim 3, characterized in that by means of the determined change in the log file a Assign ^¬ voltage determination of the relevant group and / or the relevant network component.

5. The method of claim 1, wherein an application calling the network component is informed of the operating data to be changed, and the application then stops access to the data of the network component to be changed.

6. The method as claimed in claim 1, wherein the changed operating data is implemented in the relevant network component and the subsequently configured network component is then integrated into the network and is thus available to the application again.

7, Method according to one of Claims 1 to 6, characterized in that, when the network is changed, the assignment definition for the relevant grouping and / or network component is adapted.

8. Method according to one of claims 1 to 7, characterized in that the assignment determination for the change of operating data for a relevant network component can be represented as a representation object.

9. The method of claim 8, characterized in that the representation of the object can be stored in a general memory (Sha red Memory) and is changed repre ^¬ presentation object only with a change of the operating data for the page associated with the representation of object links to relevant network component.

10. The method of claim 9, wherein the changed representation object is used in the general memory for determining the relevant network component associated with the changed representation object.

11. The method of claim 1, wherein the grouping of the network component takes place with regard to a network interface or with regard to functionally connected network components.

12. The method of claim 1, wherein the network components within the network are hierarchically grouped, wherein the grouping combines only the network components of the respectively selected hierarchical level and the lower hierarchical levels associated therewith.

13. The method of claim 5, wherein the application invokes a master process in the network component, wherein a subprocess for each network component can be called up by the master process.

14. The method as claimed in claim 13, wherein the sub-process can be called up in the network component and can be registered in the assignment determination, wherein the application can interrupt and / or start the sub-process if necessary.

15. The method according to any one of claims 13 or 14, characterized in that in the selection of the sub-process in a network component by means of the assignment determination, first informs further components dependent on the sub-process in the network component and stops the relevant components of the network components.

16. The method according to claim 13, wherein the assignment determination comprises a list of all master processes and / or subprocesses, as well as network components and / or components of a network component associated therewith.

17. The method according to any one of claims 13 to 15, characterized in that the assignment determination sends based on a message of the selected component of the network component in the network and perform all network components to be switched off this network components and / or components of a network component, an internal processing of the message and Determines a relevance of the message for the further processing of the respective component and / or network component by means of a respective internal assignment determination.

18. The method according to any one of claims 1 to 17, d a a c e c o v e n c e n e s that the assignment determination is a table.

19. The method according to any one of claims 1 to 18, characterized in that the network is a power grid in which energy and data can be transmitted.

20. The method according to any one of claims 1 to 19, wherein a network component is an information device and / or monitoring device within a network component of the network.

21. Apparatus for carrying out the method according to one of claims 1 to 20.

A computer program product stored in a computer readable medium and comprising computer readable means for causing a computer to perform a method as claimed in any one of the preceding claims 1 to 22 when the program is run in the computer.