Y. Sadeghi scite author profile

The Fusion Advanced Studies Torus (FAST) experiment is being proposed by the Italian laboratories as a European satellite Tokamak that will enhance and facilitate the exploitation of ITER like scenarios and technologies. Its size and complexity is comparable to the largest fusion machine in the world: JET. As such, its real time control system will have to meet basic requirements such as a modular and distributed architecture, where different control subsystems can be easily integrated at different times and can operate either independently or in cooperation with other subsystems. Another important feature, which has to be taken into account, is the transparency regarding both the hardware interfacing and the adopted platform. As a test bed, we are currently planning to upgrade the architecture of the Frascati Tokamak Upgrade (FTU) real-time system in order to improve its flexibility and modularity and have decided to adopt the MARTe package to reach our goal. Currently, there are four systems under development at FTU: the LH-Power system; the gas puffing control system; the ODIN Equilibrium Reconstruction system; and the position and current feedback control system (currently in a design phase). This paper will describe the current status and first results of the previously referred systems integration

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Real-Time Reconstruction of Plasma Equilibrium in FTU

Sadeghi

Ramogida

Boncagni

et al. 2010

IEEE Trans. Plasma Sci.

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Performing Real-Time Plasma Equilibrium of the Ftu Tokamak in an Rtai Virtual Machine

Sadeghi¹,

Boncagni²,

Calabrò³

et al. 2010

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Recent trends in direct mono-, di-, and tri-fluoromethyl(thiol)ation of S-H bonds

Hosseinian

Sadeghi

Ebrahimiasl

et al. 2019

Journal of Sulfur Chemistry

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Switched Ethernet in Synchronized Distributed Control Systems Using RTnet

Boncagni

Barbalace

Sadeghi

et al. 2011

IEEE Trans. Nucl. Sci.

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MARTe at FTU: The new feedback control

Boncagni

Sadeghi

Carnevale

et al. 2012

Fusion Engineering and Design

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Progress in the migration towards the real-time framework MARTe at the FTU tokamak

Boncagni

Sadeghi

Vitelli

et al. 2011

Fusion Engineering and Design

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Active toroidal field ripple reduction system in FAST

Calabrò

Cocilovo

Crisanti

et al. 2011

Fusion Engineering and Design

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Y. Sadeghi

First Steps in the FTU Migration Towards a Modular and Distributed Real-Time Control Architecture Based on MARTe

Real-Time Reconstruction of Plasma Equilibrium in FTU

Performing Real-Time Plasma Equilibrium of the Ftu Tokamak in an Rtai Virtual Machine

Recent trends in direct mono-, di-, and tri-fluoromethyl(thiol)ation of S-H bonds

Switched Ethernet in Synchronized Distributed Control Systems Using RTnet

MARTe at FTU: The new feedback control

Progress in the migration towards the real-time framework MARTe at the FTU tokamak

Active toroidal field ripple reduction system in FAST

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