Distributed parameter systems constitute an important class of modern industrial processes. However, in many practical applications the engineers still tend to adapt some classical control techniques developed for lumped systems totally neglecting the spatial dynamice of investigated process. In a view of increasing demands imposed on system accuracy and performance such conventional control algorithms simply become insufficient and there is a great necessity for novel identification and control methods taking into account both the temporal and spatial dynamics. ; This work reports a dedicated approach to control design for repetitive thermal process consisting of the extension of the existing feedback control scheme with intelligent data-driven component using the iterative learning control technique. Although this is a method which emerged in the context of time-invariant systems, it become adapted to more complex systems due to its flexibility and inherent robustness. The characterization of the resulting control scheme is discussed together with control design and implementation details. In order to compare the quality of the regulation, the approach is illustrated with simulation on the realistic model of wafer heating in industrial vacuum furnace.
Biblioteka Uniwersytetu Zielonogórskiego
2023-04-21
2023-04-21
90
https://zbc.uz.zgora.pl/publication/81283
Nazwa wydania | Data |
---|---|
Iterative learning control for vacuum heat treatment process | 2023-04-21 |
Patan, Maciej (1975- ) Klimkowicz, Kamil Patan, Krzysztof
Maniarski, Robert Paszke, Wojciech (1975- ) Hao, Shoulin Tao, Hongfeng
Maniarski, Robert Paszke, Wojciech (1975- ) Tao, Hongfeng Hao, Shoulin
Tao, Hongfeng Zheng, Junhao Wei, Junyu Paszke, Wojciech (1975- ) Rogers, Eric Stojanovic, Vladimir
Maniarski, Robert Paszke, Wojciech (1975- ) Rogers, Eric Tao, Hongfeng
Patan, Krzysztof Patan, Maciej (1975- )
Maniarski, Robert Paszke, Wojciech (1975- ) Rogers, Eric Tao, Hongfeng
Patan, Krzysztof Patan, Maciej (1975- )