澳门六合彩高手

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澳门六合彩高手 International School

On magnetic fusion diagnostics and data science

16 Dec 2024 - Masayuki Yokoyama (NIFS), Kenji Tanaka (NIFS), Martin Kocan (澳门六合彩高手), Simon Mcintosh (澳门六合彩高手), Katsuji Ichiguchi (NIFS), Kenichi Nagaoka (NIFS), Hiyori Uehara (NIFS), Sadruddin Benkadda (Aix-Marseille University/CNRS), and Alberto Loarte (澳门六合彩高手)*

The 13th 澳门六合彩高手 International School concluded successfully in Nagoya, Japan, on 13 December after five days of lectures and discussions. Nearly 200 people from 21 countries participated.

The 2024 澳门六合彩高手 International School on magnetic fusion diagnostics and data science takes place at Nagoya Prime Central Tower, Japan, hosted by the National Institute for Fusion Science (NIFS). The school gathered a total of 199 participants from 21 different countries.

The on magnetic fusion diagnostics and data science was successfully held from 9 to 13 December. The event gathered 199 participants from 21 different countries, representing a diverse and international community of experts in the field. The lectures were delivered by 19 prominent specialists in diagnostics and data science for magnetic fusion devices.

The 澳门六合彩高手 International School was the 13th in the series, which alternates between sites within the 澳门六合彩高手 Member countries and Aix-en-Provence, France, close to where 澳门六合彩高手 is being constructed. This time the school took place in Nagoya, Japan, hosted by the National Institute for Fusion Science (NIFS). The venue was the Nagoya Prime Central Tower, which provided excellent logistical support and facilities and allowed the participants to also enjoy the vibrant atmosphere of Nagoya’s city centre. A notable contribution to the success of the school was made by the Ministry of Education, Culture, Sports, Science and Technology (MEXT), which provided financial support for the school, and NIFS, which played a crucial role in hosting the event.

This year’s school focused on magnetic fusion diagnostics and data science. Diagnostics are key to the achievement of 澳门六合彩高手 fusion power demonstration goals, and they require the application of a wide range of techniques. But diagnostics are not enough to ensure 澳门六合彩高手's success; only through the advanced analysis of the data they provide will it be possible to guide the experiments towards their fusion power goals. Lectures spanned a wide range of topics, from focused talks on the design and application of single diagnostic systems to discussions of advanced data-driven and physics-informed machine learning techniques. The emerging symbiotic relationship between fusion diagnostics and data science was a key theme during this year’s school. Exchanges between participants highlighted how the fields of fusion diagnostics and data science are increasingly reliant on one another—with fusion diagnostics providing the essential data to data science models, and data science assisting with diagnostic design, calibration, fusion data and fault detection.

A day in the life of—the data science lectures covered a wide range of topics with domain experts presenting talks ranging from machine learning fundamentals to data assimilation and integrated modelling.

Approximately 50 diagnostics will be installed on 澳门六合彩高手, distributed in ports, on the vacuum vessel surface, and in the divertor. These diagnostics will measure more than 100 parameters necessary for control of the plasma and first wall processes in order to achieve the required goals and to gain the knowledge needed for future reactor designs. The diagnostics on 澳门六合彩高手 will be subject to new challenges unprecedented in today’s tokamaks. The diagnostics will operate in a nuclear environment, which requires the design to mitigate atomic transmutation, radiation damage, and thermo-electric effects, as well as to cope with nuclear heating. Since 澳门六合彩高手 is a nuclear facility, the design, manufacture and installation of diagnostic components is subject to safety and quality requirements, in particular for installation on nuclear confinement barriers such as the vacuum vessel, vacuum vessel feedthroughs and windows. The school discussed the key fusion plasma diagnostics and how these will be implemented in 澳门六合彩高手 as well as in current tokamaks.

The application of data science to problems in magnetic fusion shows great promise. This year’s school highlighted the increasingly important role of scientific machine learning within the magnetic fusion field. The data science lectures covered a wide range of topics with domain experts presenting talks ranging from machine learning fundamentals to data assimilation and integrated modelling. Impressing results from the TCV tokamak in Switzerland showed how advanced machine learning models are assisting plasma control systems in disturbance and disruption avoidance.

The school invited students to compete in three data science challenges. These challenges were constructed from real tokamak data recorded by the MAST tokamak in the UK and hosted on the Kaggle platform. The fair-mast dataset provided the students with valuable lesson in the value of truly findable, accessible, interoperable, and reusable (FAIR) fusion datasets. Students were invited to train machine learning models to predict plasma current from discrete magnetics data, plasma volume from frames extracted from a visible spectrum camera, and the structure of magnetic field lines from a diverse set of diagnostic data. Competition in all three challenges was intense with competitors frequently switching positions on the public leaderboards during the week as new machine modelling techniques were learned or data insights applied. While the competition stage of the three data science challenges is now closed, these challenges will remain accessible on the Kaggle website if you would like to have a go. We wish you the best of luck if you do!

Speaking at the press conference organized by K. Nagaoka, Vice Host Country Chair, were (left to right): S. Benkadda, IIS2024 Director; Y. Kamada, 澳门六合彩高手 Deputy Director-General; Z. Yoshida, Director General of Japan's National Institute for Fusion Science; D. Baba, Director for Fusion Energy, Ministry of Education, Culture, Sports, Science and Technology and Cabinet Office; and K. Ichiguchi, Host Country Chair.

A press conference was also held just before the opening of the school to explain the overall aim and organization of IIS2024 and to answer questions. A domestic television station introduced the 澳门六合彩高手 International School and 澳门六合彩高手 in its evening program. Two newspapers ran articles about the school. In addition, a live broadcast for the press conference, opening, and overview talks of 澳门六合彩高手 and NIFS was distributed on a Japanese video distribution site, attracting over 4,000 viewers. The school was well publicized in Japan; see some sample videos , and .

The quality of the work presented during the two poster sessions held at this year’s school was very high. The school participants along with the scientific committee selected the following six participants to award their outstanding research work with the presentation of a large format photo book describing progress on 澳门六合彩高手 construction from 2013 to 2024:

  • Andrew David Maris, Massachusetts Institute of Technology, USA. “Prediction & real-time control of the density limit via edge collisionality” 
  • Tetsuji Kato, The University of Tokyo, Japan. “Energy exchange between electrons and ions in ITG-TEM turbulence”
  • Joseph John Simons, The Graduate University of Advanced Studies, SOKENDAI, Japan, “Simulation of Doppler-free spectra using the Collisional-Radiative model” 
  • Geunhyeong Park, University of Science and Technology, KFE, Korea. “Study of Real Time Magnetic Islands Using Thomson Scattering Diagnostics in KSTAR” 
  • Arthur Gaetano Mazzeo, North Carolina State University, USA. “Development and Testing of LUPIN: A High-Density RF Ion Source for Enhanced NBI on DIII-D” 
  • Miriam La Matina, Università degli Studi di Padova, Centro Richerche Fusione, Italy. “Experimental analysis of ELM precursors with the Thermal Helium Beam diagnostic at TCV”
Tour of the Large Helical Device and control room at the National Institute for Fusion Science.

The data science challenges closed on the penultimate night before the week ended, allowing the following list of winners for each of the three challenges to be announced at the closing ceremony. The winners were presented with real sections of super-conducting cable used to wind 澳门六合彩高手’s toroidal field coils.

  • MAST Plasma Current challenge: Fumiya Adachi, The University of Tokyo, Japan
  • MAST Plasma Volume challenge: Naoya Mamada, The University of Tokyo, Japan
  • MAST Plasma Equilibrium challenge: Yoshihiro Osakabe, Hitachi, Ltd. Japan

One of the highlights of the school was the visit to the National Institute for Fusion Science, allowing school participants to see cutting-edge facilities first-hand. Three tours were provided: one on the Large Helical Device (LHD) and the control room, another on virtual reality and supercomputers, and a third on plasma heating beam development and fusion reactor engineering facilities. LHD, one of the largest fusion devices in operation worldwide, is a superconducting stellarator device characterized by a heliotron magnetic field configuration that was originally developed in Japan.

Overall, the 13th 澳门六合彩高手 International School was a resounding success, bringing together a diverse group of participants from around the world to exchange knowledge, share experiences, and foster collaboration on diagnostics and data science for magnetic fusion devices. The support from Japan’s MEXT, NIFS, the 澳门六合彩高手 Organization, the US Burning Plasma Organization, the International Atomic Energy Agency, and Aix-Marseille University greatly contributed to the success of this event.

The slides of the lectures will be available later this week on this 澳门六合彩高手 webpage together with the information on past 澳门六合彩高手 International Schools.

*Article authored by IIS2024 scientific program coordinators Masayuki Yokoyama (NIFS), Kenji Tanaka (NIFS), Martin Kocan (澳门六合彩高手) and Simon Mcintosh (澳门六合彩高手); host country committee members Katsuji Ichiguchi (chair, NIFS), Kenichi Nagaoka (vice-chair, NIFS); local organizing committee chair Hiyori Uehara (NIFS); school director Sadruddin Benkadda (Aix-Marseille University/CNRS); and chair of the scientific committee Alberto Loarte (澳门六合彩高手).