The efficient and safe operation of large fusion devices relies on accurate knowledge of the position and shape of the plasma column inside the vacuum chamber. Plasma shape is not a directly measurable quantity and thus can only be evaluated using diagnostic data. The IAIA algorithm is a fast and robust algorithm capable of accurately estimating the plasma shape and boundary position. However, its real-time performance can be improved by reducing the complexity of the linear systems inside it

Model reduction techniques for large scale nuclear fusion devices

Fagherazzi, Massimo
2014/2015

Abstract

The efficient and safe operation of large fusion devices relies on accurate knowledge of the position and shape of the plasma column inside the vacuum chamber. Plasma shape is not a directly measurable quantity and thus can only be evaluated using diagnostic data. The IAIA algorithm is a fast and robust algorithm capable of accurately estimating the plasma shape and boundary position. However, its real-time performance can be improved by reducing the complexity of the linear systems inside it
2014-12-09
model, order, reduction, nuclear, fusion, devices
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/18924