the Alcator C-MOD teamthe ASDEX Upgrade teamthe DIII-D teamthe EAST teamJET contributorsthe KSTAR teamthe NSTX-U teamthe TCV teamITPA IOS membersde Vries, P.C.Luce, T.C.Bae, Y.SGerhardt, S.Gong, X.Gribov, Y.Humphreys, D.Kavin, A.Khayrutdinov, R.Kessel, C.Kim, S.HLoarte, A.Lukash, V.de la Luna, E.Nunes, I.Poli, F.Qian, J.Sauter, OlivierSips, A.C.C.Snipes, J.A.Stober, J.Treutterer, W.Teplukhina, AnnaVoitsekhovitch, I.Woo, M.H.Wolfe, S.Zabeo, L.2016-11-302016-11-302016-11-302016https://infoscience.epfl.ch/handle/20.500.14299/131704The task is to show that the specific ITER design features allow a stable well-controlled termination. This is a joint effort in control, exception handling development and physics modelling. Relevant for ITER is to maintain vertical, radial position, and shape control during the termination, especially at the time of the relatively fast H-L transition. The analysis of a database, built using a selected set of experimental termination cases, is performed.tokamak plasmatermination scenarioMulti-machine analysis of termination scenarios, providing the specifications for controlled shutdown of ITER dischargestext::conference output::conference poster not in proceedings