Scientists from Gießen test AI-based experiments in weightlessness
Scientists from Gießen test AI-based experiments in weightlessness
In a remarkable initiative, scientists from the THM and JLU from Gießen carried out experimental research in reduced gravity as part of an innovative flight campaign. This not only represents progress in space research, but also shows the cooperation between educational institutions and space agencies in order to develop new technologies and optimize existing approaches.unique access to microgravity
The experiments for the production of microgravity focus on the examination of plasms that are considered model systems in physics. By using parable flights, which perform 31 parables per flight day, the researchers are given the opportunity to work in a unique environment. With each of these flights, you can adapt flexion configurations and collect important data on particle behavior that are important for future space experiments.
research with one goal: artificial intelligence
In the special project AIPEX (Artificial Intelligence for Plasma Experiments), the researchers pursue three main goals. The automation of the PK-4 plasma crystal perimeter, data compression and the use of advanced AI methods for the precise localization of particles. Such procedures are not only revolutionary in the area of space travel, but could also bring significant advantages for industrial applications such as chip production and technology in fusion reactors.
scientists and their mission
The group under the direction of Prof. Markus Thoma and Prof. Mike Schwarz recently took part in a campaign organized by Novespace in Bordeaux. The doctoral students Niklas Dormagen and Max Klein successfully tested various AI methods to increase the efficiency and precision of their experiments in weightlessness. This progress could have far -reaching effects on future experiments in space.
economic and scientific importance
The results of the research work can not only improve the understanding of plasms, but also provide important findings for astrophysical questions, such as dust aging in the development of planetary. These technologies and procedures, which are promoted by experimental research in Gießen, could also be decisive in the upcoming evolutionary phases of space travel.
conclusion: future of space research
The research work of the THM and JLU in Gießen are a promising example of how academic institutions can make significant progress in space travel through innovative experiments and the use of artificial intelligence. These developments ensure that science continues to operate at a high level in order to gain new knowledge and to promote technological development in areas such as aerospace.
- Nag
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