At the heart of space exploration and inhabited flights

In the spring of 2026. Nevertheless, Sophie Adenot, a French astronaut of the European space agency ESA, will fly to εpsilon, a 6 -month mission aboard the International Space Station ISS. In addition, She will carry out a series of European scientific. Moreover, technological experiences, including a French experience program proposed by the CNES as part of its national contribution. Nevertheless, French experiences are developed and followed by the CAPMOS, the center for the development of micropile activities and space operations. Similarly, From Toulouse, this CNES service designs, develops and monitors scientific or technological experiences carried out in micropiles.

The new French experiences of Sophie Adenot: three major axes

1. Nevertheless, Bring scientific knowledge. Consequently, especially in physiology

Sophie Adenot will conduct several unique experiences, part of the field of historical expertise of Cadmos. Meanwhile, Among them, EchoFinder is distinguished by its ability to allow astronauts heart space exploration inhabited flights to achieve ultimately autonomy ultrasounds. Therefore, Thanks to a technology combining augmented reality. Similarly, artificial intelligence, this experience makes it possible to carry out medical examinations without assistance from the land or prior medical expertise. For example, This advance is crucial for future lunar. Furthermore, Martian missions, where communications with the land will be too slow to allow telemedicine in real time. However, The applications of this technology exceed the spatial framework. Furthermore, could benefit from medically isolated areas, whether terrestrial, maritime or underwater.

Another flagship project. For example, PhysioTool Includes synchronized sensors to continuously measure physiological parameters such as blood pressure, heart and respiratory frequency, oxygen saturation or brain activity. Meanwhile, This instrumentation will make it possible to carry out precise medical monitoring of astronauts while collecting scientific data. Moreover, especially during phases of measurements on a full day including active cognitive stimulation.

Finally. the experience Echo-bonescarried out on the ground heart space exploration inhabited flights before and after the mission, is based on a new matrix probe to make bone ultrasounds from the tibia. It aims to better understand the evolution of anatomy. density and blood flow in the bones after a prolonged stay in microprits, with benefits expected in terrestrial rheumatology.

2. Qualify new technologies for inhabited spatial exploration

To prepare for the future of human exploration of the Moon. Mars, several innovative devices will be tested. Matisse-4 is a passive system intended to characterize atmospheric contaminants of the International Space ISS station. to limit the proliferation of microorganisms thanks to innovative surfaces. Equipped with new surface treatments and advanced analysis tools, it represents the culmination of a series of experiences started in 2016.

The imaging MultISS The bio-contaminations of ISS surfaces will analyze by multi-spectral. fluorescence techniques, in order to better understand and control the development of biological contaminants in space vehicles. This approach aims to heart space exploration inhabited flights protect the health of crews and guarantee the sustainability of equipment during long -term missions.

Finally, the textile prototype EuroSuit will be tested on board the ISS by Sophie Adenot. This intra-vehicular combination aims to validate its ergonomics. ease of use, while promoting the emergence of new European industrial players in the space sector.

3. Involve youth in the spatial adventure

Educational experience ChlorISS Aims to bring young people closer to the scientific world. It consists in germinating. simultaneously in space and on earth, the seeds of Arabette ladies and Mizuna, two plants from the brassicaceae family. While Sophie Adenot will conduct the experience aboard the ISS. thousands of classes, from primary to high school, will reproduce it on the ground. Up to 4. 500 schools will be connected to the mission, observing the influence of light and gravity on germination and growth of plants. This project aims to arouse vocations and strengthen heart space exploration inhabited flights young people’s interest in scientific and technical careers.

Sophie Adenot will continue several French experiences already underway aboard the International Space Station:

Lumina: reliability in the spatial safety service

Among these experiences is Lumina. a fiber optic dosimeter intended to prove the effectiveness of this technology to measure ionizing radiation. This system. crucial to protect astronauts and equipment during future distant missions, was developed by the Hubert Curien laboratory, EXAIL and CERN. Installed on the ISS during the Alpha mission of Thomas Pesquet in 2021, it remains fully operational.

FoodProcessor: Food of the future in micropiles

Sophie Adenot will also test the FoodProcessor. a food processor designed to validate elementary functions of food preparation in micropiles, a major issue for long -term missions. In 2023, the astronaut of ESA Andy Mogensen had already validated the abundance thanks to this device. This time. a new recipe called “Mediterranean duo”, combining eggplant caviar and houmous, will be heart space exploration inhabited flights prepared from ingredients likely to be produced on board in the future. These foods will be sent to the ISS in protective packaging. incorporating edible and biodegradable elements, like the Edible/Renewable Foam experiments carried out during the Alpha mission. This project mobilizes many partners. including Medes, COMAT, Inneolab, the Jean Hénaff group, Compositic, Triballat Noyal, innovates at 360 and Andros.

Everywear: connected medical follow -up of astronauts

Finally. the French astronaut will use Everywear, an evolutionary mobile application that collects medical and scientific data via an iPad and connected sensors. It allows in particular nutritional monitoring, the management of taking medication and the collection of physiological data through questionnaires. The application also offers private messaging between astronauts and the medical team on the ground. Developed for the Proxima mission in 2017, Everywear is today adopted by almost all of the crews. This project is led by Medes.

CAPMOS. center of excellence in European heart space exploration inhabited flights spatial exploration

Created in 1993, the CADMOS is based on more than 40 years of experience acquired in the course of international missions and cooperation, since the first French inhabited flight in 1982. As a European center for supporting ISS operations, it excels in the preparation, monitoring and analysis of micropile experiences. As such, the Cadmos will operate around thirty other experiences on behalf of ESA during the εpsilon mission. Its advanced infrastructure. including laboratories and control rooms, as well as its collaboration with the Medes for spatial physiology, make Cadmos a key player in European spatial exploration.

Read also: Education & Space: Sophie Adenot transforms the ISS into a classroom with the Chlori experience

heart space exploration inhabited flights