DE102009055810A1 - Method for simulating and automating complex operation guiding process in laboratory, involves implementing software-based infrastructure simulation, and realizing bidirectional data transmission between guiding system and simulation - Google Patents

Abstract

The present invention seeks to provide a method by which to simulate a real-time operational management process by installing available control technology and realizing the communication between simulation and control based on standardized industry protocols and allowing both components to interact.
According to the invention, a suitable control system is selected for the complex operation management process and a software-based infrastructure simulation is implemented and a bidirectional data transmission between the control system and the infrastructure simulation is realized with the aid of a communication connection based on standardized industrial protocols.

Description

The present invention relates to a method for the simulation and automation of a complex, with a proprietary or commercially available control system controllable and controllable operation control process on a laboratory scale by means of software-based solutions and standard components for testing and developing the operation management process and process control automation, to find vulnerabilities. and to increase the performance of process control applications in the laboratory already in the prototype phase.

Operation management and automation of complex infrastructure systems (eg for electrical energy, gas or water) are core elements of a reliable supply of socially and economically necessary goods and goods. Infrastructure systems are highly complex systems of large geographical extent, increasingly equipped with information and communication technology for improved monitoring, control and regulation, with the aim of the product offered (eg electrical energy, gas, water) with minimal supply downtime and high quality continuously. The obtained process information is sent centrally to a control system, which serves as a control and regulation system. Depending on the infrastructure, there are different requirements and operating philosophies. Such infrastructure systems can not be modeled in any complexity and size as a lifelike model for a real-time simulations.

However, there is a need to create the most realistic possible environment with the help of simulations in order to train process operators and to develop and / or test new functions and tools for process control. Disadvantages of commercial simulation environments for state-of-the-art infrastructure systems are lack of standardized communication interfaces or lack of flexibility as well as freedom in programming and scenario design. The combination of control technology and simulation environment has so far proved to be non-interoperable.

Available control systems are equipped with standardized communication interfaces. These systems support industry standards for the processing of protocols (eg IEC60870 . 61850 , DNP, Modbus, etc.). A process to be performed is parameterized on the systems, so that the finished system acts as a human-machine interface and serves the operator as a tool. Both testing and training on the finished system can be carried out using only all components, including the process to be operated. This results in a negative attitude towards tests or opportunities, as trust in a system can only be gained through experience. New functionalities of the control technology are either used very carefully or not at all.

The object of the present invention is therefore to overcome the disadvantages of the prior art and to provide a method with which an operation management process (infrastructure system) can be simulated in real time, with an available control technology installed and the communication between simulation and control technology based on The simulation adapts to the desired operating sequences by the control technology and can provide scenarios that depict special situations or typical events in the infrastructure system. Specifically, the human-machine interface of the prior art creates a familiar environment.

According to the invention, the solution of this problem succeeds with the features of the first claim. Preferred embodiments of the method according to the invention are specified in the subclaims.

The invention will be explained in more detail below with reference to drawings. Show it:

1 - Principle representation of the method according to the invention

2 Exemplary software architecture for the implementation of the simulator

The present invention proposes a method for constructing a simulator for simulating the operation management process and automation of large-scale infrastructure systems on a laboratory scale by means of software-based solutions with the aid of available control technology and standard components. Once a suitable control system has been selected for the respective modeled operational management process (infrastructure process), the man-machine interface is modeled in the control system. Subsequently, a suitable communication protocol for bidirectional data transmission between the control system and the infrastructure simulation is selected and implemented. In addition, scenarios to be simulated and a communication network modeled with a communications network simulator can be defined. Finally, the implementation of the real-time capable infrastructure simulation and the integration of the communication protocol are carried out, so that current system states can be determined with the help of the Log can be reported to the control system or influenced by sizes of the simulation.

The inventive method is in 1 shown in principle. The implemented software architecture according to this method is in 2 shown.

The essential advantage of the method according to the invention is that a closed simulation can be set up with the aid of the integration of a bidirectional communication connection based on standardized industrial protocols. The necessity of a real process connection for large infrastructure systems is thus obsolete. On a laboratory scale, it is possible to simulate large systems, to make the simulation results available as real-time data of the control technology, to have the integrated work processes and algorithms of the control technology carried out and to influence the simulated process via feedback. By using standardized industry protocols, it is possible to model the communication path using a communication network simulator so that characteristics of different communication technologies can be used to investigate their influence on the operation of the infrastructure system. Furthermore, systems created by this method can provide functions that can provide specific scenarios for training or testing and record the process as a whole.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• IEC60870 [0004]
• IEC61850 [0004]

Claims (5)

Method for simulating and automating a complex operational management process that can be controlled and regulated with a control system, characterized in that a suitable control system is selected for the complex operation management process and a software-based infrastructure simulation is implemented and bidirectional data transmission between. Using a communication connection based on standardized industrial protocols the control system and the infrastructure simulation is realized. A method according to claim 1, characterized in that in addition a real-time module for adapting the infrastructure simulation and feedback of new simulation results is implemented. Method according to one of claims 1 or 2, characterized in that in addition a scenario module for implementing various system events within the infrastructure simulation is implemented. Method according to one of claims 1 to 3, characterized in that in addition a training module for generating special operational management process situations and recording the resulting reactions using the control technology is implemented. Method according to one of claims 1 to 4, characterized in that in addition a communication network simulator for investigating the influence of various communication technologies is integrated into the operation management process.

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