초록 ▼

A control system (1) for a complex process, particularly for controlling a combustion process in a power plant, a waste incinerator plant, or a cement plant, has a controlled system (14) and at least one controller (36), wherein the control system (1) is divided hierarchically into various levels (1

A control system (1) for a complex process, particularly for controlling a combustion process in a power plant, a waste incinerator plant, or a cement plant, has a controlled system (14) and at least one controller (36), wherein the control system (1) is divided hierarchically into various levels (10, 20, 30, 40). The first level (10) represents the complex, real process to be controlled and is implemented by the controlled system (14). The second level (20) represents an interface to the process and is implemented by a process control system. The third level (30) represents the control of the process and is implemented by the at least one active controller (36). The fourth level (40) represents a superordinate overview and is implemented by a principal controller (44).

대표청구항 ▼

1. A control system for controlling a complex, real process of a controlled system, comprising: a process control system;a set of controllers comprising controllers which were previously active, andat least one active controller;a principal controller configured for training simulators that are for

1. A control system for controlling a complex, real process of a controlled system, comprising: a process control system;a set of controllers comprising controllers which were previously active, andat least one active controller;a principal controller configured for training simulators that are for simulating the controlled system,developing the set of controllers,testing the set of controllers on the simulators in order to find a best controller, andcomparing the best controller with the at least one active controller for determining whether to replace the active controller with the best controller, wherein the principal controller is configured: for individually training the simulators in evolutionary fashion using a recurrent neural network; andso that, for each of the simulators, the training comprises defining a fitness for being optimized, and the defining of the fitness comprises determining a discrepancy in a forecast value from an actual value,wherein the control system is hierarchically split into a plurality of levels comprising: a first level that is implemented by the controlled system and represents the complex, real process that is to be controlled,a second level that is realized by the process control system and represents an interface to the complex, real process that is to be controlled,a third level that is realized by the at least one active controller and represents control of the complex, real process that is to be controlled, anda fourth level that is realized by the principal controller and represents a superordinate supervisor. 2. The control system as claimed in claim 1, wherein the at least one active controller is based on a recurrent neural network. 3. The control system as claimed in claim 1, comprising a feature extractor configured for: performing image processing for the controlled system, andascertaining features from the image processing. 4. The control system as claimed in claim 1, wherein the at least one active controller is configured for ascertaining a manipulated variable using control error between an actual value (y) from the controlled system and a setpoint value. 5. The control system as claimed in claim 1, wherein the principal controller is configured: for searching for new controllers in the set of controllers; andso that the controllers which were previously active are excluded from the searching for the new controllers. 6. The control system as claimed in claim 1, wherein the principal controller is configured so that the testing of the set of controllers on the simulators comprises a search being performed to identify a controller which, on average over the simulators best matches the forecasts of the simulators in a time profile to profiles of setpoint values. 7. The control system as claimed in claim 6, wherein the principal controller is configured so that fitness of a controller from the set of controllers is obtained from simulated control errors of the controller in closed control loops on the simulators. 8. The control system as claimed in claim 1, wherein the principal controller is configured so that the controllers which were previously active are excluded from evolutionary search strategies for new controllers in the set of controllers. 9. The control system as claimed in claim 8, wherein the principal controller is configured so that the controllers which were previously active are excluded from the search. 10. The control system as claimed in claim 1, wherein: the at least one active controller comprises a plurality 20 of active controllers; andthe control in the third level is split among the plurality of active controllers into subareas which have associated subprocesses in the complex process. 11. The control system as claimed in claim 10, wherein the principal controller is configured so that the split of the control among the plurality of active controllers changes dynamically by way of automatic problem decomposition. 12. The control system as claimed claim 1, wherein artificial data points are inserted in a data space for the states of the controlled system in unoccupied or sparsely occupied regions. 13. The control system as claimed in claim 12, wherein artificial data points are also inserted in regions of untested control actions in the data space area with known 5 process situations and/or in data space areas with totally unknown process situations. 14. The control system as claimed in claim 1, wherein the complex, real process of the controlled system is a combustion process in a power plant, a waste incineration installation or a cement works. 15. The control system as claimed in claim 1, wherein the principal controller is configured: for searching for new controllers in the set of controllers; andso that the controllers which were previously active are excluded from the searching for the new controllers. 16. The control system as claimed in claim 1, wherein the principal controller is configured for: training the simulators in cycles, andtesting the set of controllers on the simulators.