ER15-JSI-02

From ERwiki

(Difference between revisions)
Jump to: navigation, search
(DOCUMENTATION)
(DOCUMENTATION)
Line 64: Line 64:
|style="color:#000"|
|style="color:#000"|
* [[Media:FMPCFMPC_KoM_Samo.pdf | Fast Model Predictive Control for Magnetic Plasma Control - Kick-off Meeting - S. Gerksic (Mar 24th 2015)]]
* [[Media:FMPCFMPC_KoM_Samo.pdf | Fast Model Predictive Control for Magnetic Plasma Control - Kick-off Meeting - S. Gerksic (Mar 24th 2015)]]
 +
* [[Media:FMPCFMPC_KoM_Samo_MPC.pdf | Fast Model Predictive Control for Magnetic Plasma Control - S. Gerksic (Mar 24th 2015)]]
 +
* [[Media:OverviewCREATEModellingTools.pdf | CREATE Tools for plasma magnetic modelling and control - G. De Tommasi (Mar 25th 2015)]]
 +
* [[Media:ERMeetingMar2015_AP.pdf | Design of a realistic feedback+feedforward control scheme able to manage the whole plasma pulse - A. Pironti (Mar 25th 2015)]]
 +
* [[Media:ARIOLA_KOM_ER.pdf | Simultaneous control of modes with multiple toroidal periodicity in tokamak plasmas - M. Ariola (Mar 25th 2015)]]
 +
|}
|}
|}
|}
</span>
</span>
<span>
<span>

Revision as of 07:42, 23 April 2015

Fast Model Predictive Control for Magnetic Plasma Control

Principal Investigator:

Samo Gerksic (IJS)

Contributors:

Gianmaria De Tommasi (CREATE)

Marco Ariola (CREATE)

Alfredo Pironti (CREATE)

Boštjan Pregelj (IJS)

Andrej Debenjak (IJS)

Participating institutions:

Institut "Jožef Stefan", Ljubljana, Slovenia

Consorzio CREATE, Naples, Italy

COSYLAB, Ljubljana, Slovenia

Page last edited on 23-4-2015

PROJECT OBJECTIVES

The main project objectives are:

  • O1 -> Review possible approaches of complexity reduction for fast Model Predictive Control (MPC) suitable for Plasma Current and Shape Control (PSC) and possibly to Resistive Wall Modes (RWM) control
  • O2 >> Implement the most appropriate fast MPC method
  • O3 >> Adapt plasma models for use in MPC and prepare a set of models in different operation points of an ITER scenario, in order to assess robustness
  • O4 >> Develop a suitable state-estimation technique
  • O5 >> Apply fast MPC to PSC control
  • O6 >> Evaluate fast MPC performance and robustness to disturbances and variation of local dynamics in comparison to existing approaches
  • O7 >> Evaluate the applicability of fast MPC to RWM control

DOCUMENTATION


Minutes of Meetings


Presentations

Personal tools