EP1777381A1 - Method and system for controlling a computer-aided computation method of a technical installation - Google Patents

Abstract

The control of a computer controlled processor in a technical process [T] such as a power plant is designed for interactive network use. The process has a client [C]connected to a server [W], a data memory [S], controller [L] and an application [A]. The data memory is used such that the client cannot actively influence the application and visa versa.

Description

The invention relates to a method for controlling a computer-aided computing method in a technical system which permits interactive network-based use. The invention further relates to a device which is particularly suitable for carrying out the method. The method and the device should be used in particular as a diagnostic system of a power plant.

In operation of a technical plant of, for example, a power plant, time-varying operating conditions (e.g., wear and tear on the individual machinery components) that require monitoring arise over time. This monitoring can be used to determine whether the individual operating states are within permissible tolerances. For example, a variety of technical sizes, e.g. Temperature, pressure, etc. recorded by measuring systems.

In order to determine the state of the technical installation, the acquired data are passed on to further processing, for example, for an analysis or simulation of various scenarios. For example, computing methods are used whose interactive use via a network-based user interface is undesirable or technically limited. One of the reasons for this lies in the high security risk associated with network-based usage, since sensitive data can be intentionally or unintentionally changed by other network users, for example. Another reason for this is that complex computing methods are often not intended for a network application in which, for example, multiple clients retrieve services from a server performing the computation. Moreover, computational methods which are used in particular for simulation or analysis are required a lot of computation time, so that the usual net-based user interfaces do not accept this waiting time.

Therefore, interactive net-based uses have been dispensed with in such constellations so far. In general, the calculation method is installed on a single system, such as a workstation to the operator. Thus, the calculation method can be used directly by the operator. This is the case, for example, with software in which the operator receives the software directly and can use it directly with the aid of a license key or a dongle.

The object of the invention is therefore to provide a method for controlling a computer-aided calculation method in a technical system, which allows an interactive network-based use with significantly increased performance. Another object is to specify a device which is particularly suitable for carrying out the method. The method and the device should be usable in a power plant, in particular as a diagnostic system.

The object related to the method is achieved according to the invention by a method for controlling a computer-aided computing method in a technical system, which is designed for interactive network-based use, so that an input of data is performed by means of the interactive network-based operation, wherein these data are at least partially be exploited in the computer-aided calculation method, and wherein a decoupling of the interactive network-based operation and the computer-aided calculation method, an active influence on the interactive operation on the computer-aided calculation method and vice versa is avoided.

Therefore, the basic principle of the invention is that a decoupling of the interactive network-based operation, ie essentially the input of data and the output of result data, and the actual processing of the data takes place. This avoids that an active influence on the interactive operation by means of, for example, manual operation of an operator on the computer-aided calculation method is avoided. An essential advantage of the method is that the computer-aided calculation method, for example a complex computer-aided analysis or a simulation method, can be controlled with interactive operation via a network interface. This means that many complex calculation methods, for example, can now be used with interactive network-based operation. As a result, the computer-aided calculation method no longer has to be delivered to every user; rather, several users can access one and the same calculation method. This considerably simplifies the maintainability of the computer-aided calculation method, for example in the event of errors or even during updates, which can now be carried out centrally. Another significant advantage is that now the computer-aided calculation method can be used by many operators at the same time (multi-user capability). This is an advantage in particular when many operators want to use the calculation method, but the individual operators only use the computer-aided computing method in their capacity to a relatively small extent. Another advantage is that, despite this decoupling the operator of the interactive network-based operation remains the impression that he controls the processing of the computer-aided calculation process itself. Through this decoupling, however, he controls only the input of the input data and the output of the result data by means of the interactive network-based operation. The operator himself has no access to the computer-aided calculation process itself, which reduces the security risk associated with the use of sensitive data in the computational process. Decoupling also makes the security risk of transmission more sensitive, that is risky data, reduced. An increase in performance therefore results above all in terms of safety, maintenance and multi-user capability.

Preferably, the interactive network-based operation is done by one or more operators. This is particularly advantageous when the operators at different locations on different computing systems, such as workstations, to access the computer-aided calculation method through the interactive network-based operation. This is on the one hand a cost advantage, since the computer-aided calculation method is delivered only once, on the other hand it increases the maintainability (for example, in updates), which only need to be executed once and can be carried out for example online by the supplier or a system administrator.

Advantageously, the simultaneous access of several operators to the computer-aided calculation method is made possible. Due to the simultaneous access unnecessary waiting times are avoided. A further advantage results from the fact that several invoices are simul- a-bends can be started and can be processed overnight.

Preferably, a diagnosis of at least part of the technical installation is effected by the computer-assisted calculation method in / at the technical installation (T). Diagnostic procedures are constantly required, especially with regard to changing operating data in the technical system. Furthermore, here sensitive, that is, the technical system concerned, processed data. Due to the large amount of data, these are mostly also complex procedures.

Furthermore, the data required for the diagnosis are preferably measured by means of a measuring system in / at the technical system. The measuring system can also be connected directly to the interactive network-based operation coupled, so that no direct manual input of the data is more necessary.

The object related to the device is achieved according to the invention by a device for controlling a computer-aided computing method in a technical system which is designed for interactive network-based use, comprising a client, a server, a data memory, a controller and an application, wherein the client is connected to the server for data exchange, the server is connected to the data exchange for data exchange, this is connected to the controller for data exchange, and the controller is connected to the data exchange with the application and wherein the data memory is designed such that an active influence on the client is avoided on the application and vice versa. The device is particularly suitable for carrying out the method described above. The advantages of the method therefore also arise for the device.

In a preferred embodiment, the data exchange between client, server, data storage, controller and application is entirely or at least partially provided wirelessly. The data transmission can take place, for example, by means of WLAN (Wireless Local Area Network). Thus, greater flexibility can be achieved.

The client is preferably connected to the server via Internet / Intranet. The advantage here is that the supplier of the application, usually the manufacturer, the application does not have to give out of hand, but can sell services with the application. This is particularly important if sensitive data is included in the calculation process and the risk of unintentional disclosure of this data exists.

The data memory is preferably a passive data memory. This allows the datastore to execute commands from the controller or the server, but not active commands Give the controller or server, that is, do no actions in the controller or server.

In a preferred embodiment, one or more clients are connected to one or more servers which are connected to the database. Here, the reliable application of the application is increased because a failure of a client or a server does not prevent the application of the application by the other operators.

In a preferred embodiment, the data memory is provided on a physically independent data server. In this case, the data server can be designed such that it is only coupled to the server via a network connection. By special software-side configuration, this can for example have an increase in access time result. Alternatively, the client, the server, the data storage, the controller and the application are provided on a computer system. This is particularly advantageous when the application is mainly used by an operator, or when the computing system is provided exclusively at a certain place (for example, a measuring room).

Alternatively, the client, the server, the data storage, the controller and the application are provided on physically independent computer systems. In this constellation, the reliability of the application is increased because a failure of the client does not mean a failure of the application. Alternatively, other arrangements of client, server, data storage, controller and application on one or more physically or virtually (different partitions, hard disks) different computer systems are possible.

Preferably, the technical system is a power plant. In a power plant, this device can be used as a diagnostic device.

Further advantageous embodiments of the invention will become apparent from the description. In the following the invention will be explained by way of example with reference to a drawing.

FIG 1

eine Vorrichtung zur Steuerung eines computergestützten Rechenverfahrens in einer technischen Anlage,

FIG 2

ein Verfahren zur Steuerung eines computergestützten Rechenverfahrens in einer technischen Anlage.

It shows in a simplified and not to scale representation:

FIG. 1

a device for controlling a computer-aided calculation method in a technical installation,

FIG. 2

a method for controlling a computer-aided calculation method in a technical installation.

Identical parts are provided with the same reference numerals in all figures.

1 shows a schematic arrangement of a device for controlling a computer-aided computing method in a technical system (T). This comprises a client (C), which e.g. is designed as a web browser for displaying the interactively controlled user interface. The client (C) is connected to a server (W) for data exchange. The server (W) is configured, for example, as a web server. The server (W) is connected to a data memory (S), advantageously a database, for data exchange. The data memory (S) in turn is connected for data exchange with a controller (L) which is connected to an application (A). The controller (L) is advantageously a control program for activating the application (A). The application (A) advantageously represents the computer-aided calculation method. The device is integrated on or in a technical system (T). In this case, measuring devices (not shown) are preferably connected to the device, which supply the data for carrying out the application (A).

2 shows a method for controlling a computer-aided computing method in a technical system (T). shown. This can be roughly divided into two parts A and B.

Part A essentially comprises the steps 1-8, which are briefly described below. In the first step, the client (C) sends a request to the server (W) that he wants to use the application (A). The server (W) then sends in step 2 a form, such as an interactive user interface, for inputting the data to the client (C). The input of the data may be done by an operator, manually or automatically by means of a program which receives data through a measuring device. In step 3, the client (C) returns the form with the input data to the server (W). The server (W) generates from the input data a record which it provides with a special mark. From this mark it can be seen that this record contains only input data. The server (W) sends this data record to the data memory (S), step 4. There, the data record is stored. Connected to step 4, the server (W) sends to the client (C) an acknowledgment of the receipt of the input data and activates a timer with a wait time based on the input of the data and the processing of the data by the application (A) the client (C). The expiration of the waiting time is advantageously displayed on the user interface (C) by a message, for example a progress bar. The processing of the input data is described in Part B. At the latest after expiry of the waiting time or else at the request of the operator, the client (C) starts a request to the server (W) for the result data belonging to the input data, step 5. The server (W) requests the data storage (S) The data store (S) sends the data record to the server (W) in step 7. The server (W) then checks the marking of the data record. If the flag indicating that the data set contains only input data is returned to step 4 in step 8 and the timer is reactivated. Shows the mark that the record results data contains, sends the server (W) in step 8 to the client (C) and deactivates the timer.

In the B part decoupled from the actual input of the input data by the operator, the processing of the application (A), for example, the computer-aided calculation method, with the input data.

For this purpose, the controller (L) from the data memory (S) in a step 31 requests a record containing a flag indicating that this record contains only input data. If no such data record is present in the data memory (S), it returns to step 31 in a step 32. This can be done immediately or after a pre-set waiting time. If such a data record is present in the data memory (S), then this is transferred to the controller (L) in step 32. Advantageously, in the presence of a plurality of such data sets, these are sent in chronological order of time to the controller (L). In a step 33, the controller (L) transfers the received data record of the application (A). The application (A) executes the function desired by the operator with the inputs received. This can be a computer-aided calculation method, for example in the form of a simulation, a complex calculation or an analysis for the diagnosis of the technical installation (T). In a step 34, the application (A) sends the results to the controller (L). The controller (L) supplements or replaces the previously only input data-containing data record in the data memory (S), step 35. Furthermore, it changes the marking of the data record in such a way that now the marker indicates the presence of result data. The controller (L) then executes step 31 again.

A significant advantage of this method is the decoupling of the client (C), ie, in principle, the operator of the actual processing of the desired application by the user (A). This is done by having the data store (S) is designed, so to speak, as a passive element, that is, it is not able to trigger actions on the controller (L) or the server (W), but stores or delivers only data according to a command directed to it. Furthermore, the different markers in the input and result data set reduce the security risk in transmitting sensitive, that is, risky data. Another significant advantage is that the application (A), for example, complicated computer-aided calculation methods, can be controlled with interactive operation via a network interface and thus the application (A) no longer needs to be delivered to each user. This also facilitates maintainability, for example in the event of errors or even when the application (A) is updated. Updates or errors can therefore be carried out quickly by the manufacturer or a system administrator. By specifying this method and the device, the control of a computer-aided computing method in conjunction with an interactive network-based use in the significantly increased performance increases especially in terms of security, maintenance and multi-user capability is made possible.

Claims (14)

Method for controlling a computer-aided computing method in a technical installation (T), which is designed for interactive network-based use
characterized in that a) an input of data is performed by means of an interactive network-based operation, wherein b) these data are at least partially utilized in the computer-aided calculation method, and wherein c) by actively decoupling the interactive network-based operation and the computer-aided calculation method, an active influence on the interactive operation on the computer-aided calculation method and vice versa is avoided. Method according to claim 1,
characterized in that
the interactive network-based operation is done by one or more operators. Method according to one of the preceding claims,
characterized in that
Simultaneous access to several operators on the computer-aided calculation method is made possible. Method according to one of the preceding claims,
characterized in that a diagnosis of at least part of the technical system (T) is effected by the computer-aided calculation method in / at the technical installation (T). Method according to claim 3,
characterized in that the data required for the diagnosis by means of a measuring system in / on the technical system (T) are measured. Device for controlling a computer-aided calculation method in a technical installation (T), which is designed for interactive network-based use, comprising a client (C), a server (W), a data memory (S), a controller (L) and an application (A) wherein the client (C) for data exchange with the server (W) is connected, the server (W) for data exchange with the data memory (S) is connected, this for data exchange with the controller (L) is connected and the controller (L) for data exchange with the application (A) is connected and wherein the data memory (S) is designed so that an active influence of the client (C) on the application (A) and vice versa is avoided. Device according to claim 6,
characterized in that the data exchange between client (C), server (W), data memory (S), controller (L) and application (A) is wholly or at least partially provided wirelessly. Device according to one of claims 6-7,
characterized in that the client (C) via Internet / Intranet to the server (W) is connected. Device according to one of claims 6-8,
characterized in that the data memory (S) is a passive data memory. Device according to one of claims 7-9,
characterized in that one or more clients (C) are connected to one or more servers (W) which are connected to the database (S). Device according to one of claims 6-10,
characterized in that the data memory (S) is provided on a physically independent data server. Device according to one of claims 6-11,
characterized in that the client (C), the server (W), the data memory (S), the controller (L) and the application (A) are provided on a computer system. Device according to one of claims 6-11,
characterized in that the client (C), the server (W), the data memory (S), the controller (L) and the application (A) are provided on physically independent computer systems. Device according to one of claims 6-13,
characterized in that the technical system (T) is a power plant.

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