A disruption prediction system, based on neural networks, is presented in this paper. The system is ideally suitable for on-line application in the disruption avoidance and/or mitigation scheme at the JET tokamak. A multi-layer perceptron (MLP) predictor module has been trained on nine plasma diagnostic signals extracted from 86 disruptive pulses, selected from four years of JET experiments in the pulse range 47830–57346 (from 1999 to 2002). The disruption class of the disruptive pulses is available. In particular, the selected pulses belong to four classes (density limit/high radiated power, internal transport barrier, mode lock and h-mode/l-mode). A self-organizing map has been used to select the samples of the pulses to train th...
In view of the future high power nuclear fusion experiments, the early identification of disruptions...
In this paper, dynamic neural networks are proposed to predict the plasma disruptions in a nuclear f...
Understanding the many aspects of tokamak physics requires the development of quite sophisticated mo...
A disruption prediction system, based on neural networks, is presented in this paper. The system is ...
A disruption prediction system, based on neural networks, is presented in this paper. The system is ...
Neural networks are trained to evaluate the risk of plasma disruptions in a tokamak experiment using...
This paper presents a neural network-based disruption predictor wherein multiple plasma diagnostic s...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
Neural networks are trained to evaluate the risk of plasma disruptions in a tokamak experiment using...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
n this paper, a Multi Layer Perceptron is trained to act as disruptions predictor at ASDEX Upgrade. ...
Nuclear fusion is one of the best options to achieve a virtually limitless energy source in the futu...
In this paper, a neural predictor has been built using plasma discharges selected from two years of ...
Disruptions have the potential to create serious damage to large reactor-scale. Thus, disruption de...
In large-scale Tokamaks disruptions have the potential to create serious damage to the facility. He...
In view of the future high power nuclear fusion experiments, the early identification of disruptions...
In this paper, dynamic neural networks are proposed to predict the plasma disruptions in a nuclear f...
Understanding the many aspects of tokamak physics requires the development of quite sophisticated mo...
A disruption prediction system, based on neural networks, is presented in this paper. The system is ...
A disruption prediction system, based on neural networks, is presented in this paper. The system is ...
Neural networks are trained to evaluate the risk of plasma disruptions in a tokamak experiment using...
This paper presents a neural network-based disruption predictor wherein multiple plasma diagnostic s...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
Neural networks are trained to evaluate the risk of plasma disruptions in a tokamak experiment using...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
n this paper, a Multi Layer Perceptron is trained to act as disruptions predictor at ASDEX Upgrade. ...
Nuclear fusion is one of the best options to achieve a virtually limitless energy source in the futu...
In this paper, a neural predictor has been built using plasma discharges selected from two years of ...
Disruptions have the potential to create serious damage to large reactor-scale. Thus, disruption de...
In large-scale Tokamaks disruptions have the potential to create serious damage to the facility. He...
In view of the future high power nuclear fusion experiments, the early identification of disruptions...
In this paper, dynamic neural networks are proposed to predict the plasma disruptions in a nuclear f...
Understanding the many aspects of tokamak physics requires the development of quite sophisticated mo...