Title :
Tensor techniques for iterative learning control of a free-electron laser
Author :
Pfeiffer, S. ; Lichtenberg, G. ; Schmidt, Christoph ; Schlarb, H.
Author_Institution :
German Electron Synchrotron (DESY), Hamburg, Germany
Abstract :
An iterative learning control (ILC) algorithm reduces repetitive control errors to a desired trajectory within the same repeated task. This paper considers an alternative ILC representation based on a tensor representation. Hereby a decoupling of static and dynamic parts of each calculated ILC matrix leads for computational reasons to a reduction by an order of magnitude. Based on such tensor representation the Norm Optimal ILC is compressed to a Norm Optimal Tensor ILC. The reduced number of elements to store the ILC parameter in this approach simplifies the calculation, especially for high sampled datasets and therefore long trajectories. The resulting algorithm is implemented at FLASH, a free electron laser facility, highly suitable for this approach.
Keywords :
free electron lasers; iterative methods; learning systems; matrix algebra; optical control; optimal control; tensors; trajectory control; FLASH; ILC algorithm; ILC parameter; alternative ILC representation; calculated ILC matrix; free electron laser facility; free-electron laser; high sampled datasets; iterative learning control algorithm; norm optimal ILC; norm optimal tensor ILC; repeated task; repetitive control errors; tensor representation; tensor techniques; trajectory; Cavity resonators; Free electron lasers; Matrix decomposition; Radio frequency; Singular value decomposition; Tensile stress; Vectors;
Conference_Titel :
Control Applications (CCA), 2012 IEEE International Conference on
Conference_Location :
Dubrovnik
Print_ISBN :
978-1-4673-4503-3
Electronic_ISBN :
1085-1992
DOI :
10.1109/CCA.2012.6402643
