Applications of Predictive Control in Power Electronics
| Vreme | 20. maj 2013. 09:39 |
|---|---|
| Predavač | Prof. dr Marco Rivera |
| Organizator | Odsek za Energetiku |
| Mesto | Računski centr Elektrotehničkog fakulteta, sala na spratu |
Odsek za Energetiku vas poziva na predavanje:
Prof. dr Marco Rivera
Applications of Predictive Control
in Power Electronics
Predavanje će biti održano u četvrtak 23. maja 2013. godine, od 11-13 časova, u Računskom centru Elektrotehničkog fakulteta u sali na spratu. Predavanje će biti na engleskom jeziku.
Kratak sadržaj predavanja:
Due to the technological advances and the emergence of faster microcontrollers, now it is possible to perform a very large number of calculations at low cost allowing new and more complex control techniques such as fuzzy, adaptive and predictive control.
Predictive control method has found recent application in power electronics, due to the fast processing time required to control electrical variables. This technique is a very intuitive concept that is easy to implement in diverse systems. It performs well considering numerous restrictions, such as compensation for downtime or nonlinearities in the system, it offers a flexible control technique, and it is easily extendible for different applications.
In this presentation different applications of predictive control in power electronics and electrical drives will be given.
Kratka biografija predavača:
Prof. Marco Rivera received his B.Sc. in Electronics Engineering and M.Sc. in Electrical Engineering from the Universidad de Concepcion, Chile in 2007 and 2008, respectively. He received the PhD degree at the Department of Electronics Engineering, Universidad Tecnica Federico Santa Maria, in Valparaiso, Chile, in 2011 with a scholarship from the Chilean Research Fund CONICYT. During 2011 and 2012 he was working on a Post Doctoral position at Universidad Tecnica Federico Santa Maria and currently he is a professor in Universidad de Talca, Chile. Prof. Rivera is a recipient of prestigious Chilean Academy of Sciences award for his PhD thesis. His research interests include matrix converters, predictive and digital controls for high-power drives, four-leg converters, renewable energies and development of high performance control platforms based on Field-Programmable Gate Arrays.