From solar energy glowing on genetic brain maps from space, research funded by the Europe-funded horizon in 2025 is promising.
Also, looking at projects funded by Horizon Europe will make cities more greener and cleaner.
In 2025, we witnessed the genetic deciphering of the human brain, allowing us to gather solar energy in space and cross a bridge built with electronically controlled fungi.
Horizon Europe-funded project could crack brain genetics with AI
A detailed map of the human brain created by the Horizon Europe-funded Human Brain Project is prime time ready and should start to be yours in 2025.
According to Professor Katlin Amantz, a German neuroscientist at the University of Dusseldorf in Germany and Professor Julich of Forschunzentrum Julich in Germany, these maps have been linked to scientists and doctors to navigate new treatments for patients with brain disease. It helps you gate.
She leads a decade of exploration of human brain landmarks that created the human brain atlas, and the most detailed maps of brain regions that have been made to date and their cellular structures have made them the most possible way. We have created new developments to make the most of it.
She explained: “In 2025, one of the biggest AI machines, Jupiter, will have enormous computing power when it starts at Jülich. By bringing together AI and data, we will be able to create a virtual expert scenario on the impact of a particular treatment on the brain. You can do it.
“The brain atlas we developed would benefit more patients and would be a useful tool to inform the diagnosis and surgery, for example, of the locality of the tumor.”
She added: “One breakthrough I want to see is understanding how the brain functions at the cellular level. In 2025, we have seen the relationships between brain cells, from cells to networks to whole brain at different scales. I hope we can bridge the gap between genes and disease knowledge.”
Solar energy takes the help from space
Combining satellite data and AI provides an incredible new opportunity for the sky to be at its limit.
Effie Makri, an electronic engineer at a Greek technology company and vice president of research and innovation, combines the power of AI, satellite observation and miniweather stations to lead Horizon Europe-funded respondent projects and enhance your energy forecasts. Grid from solar farm.
“The satellite programs of Galileo and Copernicus are incredible and Europe should be extremely proud of these technologies. Macri said:
“Another potential development I predict is space-based energy. This allows us to see solar energy collection in space, then transmit it wirelessly to Earth via microwaves or lasers.”
Create self-healing, life and structural materials through Horizon Funding
Resources are limited and you need to be aware of climate impacts.
Dr. Kunal Masania, an engineer at the Delft Institute of Technology in the Netherlands and part of the European-funded AM-Climate Project, is working to achieve this.
He is creating fungal composites for large-scale construction projects such as future home furniture, airplane parts, and bridges. Fungi are renewable resources, and some species can be grown using agricultural and forestry waste.
He states: But what we missed is the interesting abilities that your material can be used when it is alive.
“I’m making LEGO-like pieces consisting of fungal cells attached together by robots to build small bridges.
“We plan to put electrodes in this material to hear signals of mechanical stress from the fungus. We also respond to repair damage or locally strengthening certain areas. I want to signal the fungus. [filaments] Fungi can form. ”
The advantage of organism structure is that materials can sense, report and adapt stress. This is to only strengthen the material when needed.
Better future for Europe’s bees and nature
Bees most frequently visit flowers in natural habitats around the world, pollinating about half of all crops. But they’re not doing well, according to Professor Dirk de Graf, a biologist at the University of Ghent in Belgium.
“Pollination of crops and wild flowers by honeybees is more valuable than all the honey they produce. But on average, a third of our European colonies are lost each year. This means that with the help of technology, the situation for bees in Europe will improve after 2025. De Graaf is funded by Horizon Europe, a study of honeybees called B-Good. I’m leading the project.
“There are no climate-adapted races as the majority of bees in Belgium and Northern Europe have been imported. In the future, parasites such as Varroa mites are not relied on chemicals to kill these parasites. You need to choose bees that can resist.
“The real value-added is that developing smarter algorithms that interpret data and send alerts to beekeepers will reduce working hours with bees, but bees become healthier.”
A cleaner greener city that benefits everything
According to Dr. Annemie Wyckmans, an architect at the Norwegian University of Science and Technology in Trondheim, our future cities will be greener, with fewer carbon emissions and more beautiful.
As a leader in EU-funded craft projects, she connects artistic and cultural groups to help sustainable change on the streets of the city. These transformations are primarily driven by the local community.
“The craft team is inspired by EU initiatives and bringing European green trading to where people live. The new European Bauhaus, or Nev, is a place where people’s daily lives and living spaces can be seen as art and culture. I hope that it will be inspired by, harmonious with nature and involve social interactions,” commented Wykemans.
Alongside Craft, projects like Revaluation, Bauhausbite and Nebster, which involve more than 100 European cities and communities, are working towards the same goal.
Like the Bauhaus movement in Germany a century ago, NEB aims to conquer the spirit of urban design, science, technology, arts and community to overcome important social challenges. The art itself can be a driving force because it is widely displayed in the city and has the power to galvanize people.
This article was originally published in Horizon the EU Research and Innovation Magazine.
Source link
