- Projects & figures
- News & Events
- Managing your project
- About ERC
Spacecraft follow the same tendency as our computers to become continuously smaller, but more connected. In his ERC grant “NetSat”, Klaus Schilling, from the Zentrum für Telematik in Würzburg, studies control strategies for small pico-satellites in formation, in order to achieve the best performance through their cooperation.
The increasing development of wearable technology sparks the need for new, innovative ways to interact with our shiny gadgets. Deviating from the conventional approach based on touch-sensitive devices, Prof. Jürgen Steimle aims at producing body-worn user interfaces that can be applied directly on the skin. Highly personalised, biocompatible and ultrathin, these devices will seamlessly blend with the human skin to create a technological extension of our body.
Will spacecraft follow a similar evolution to computers? While information processing in the last century was performed by large mainframe computers, today, networked smart phones dominate the market. In spacecraft engineering a similar paradigm shift is apparent: from traditional single, large, and multifunctional satellites towards groups of very small satellites that cooperate together. Professor Klaus Schilling, in his ERC project “NetSat”, addresses crucial challenges to enable small satellite formations to self-organise. This offers innovative application perspectives in areas like Earth observation, science exploration or telecommunications.
Emulsions play a key role both in natural and industrial processes, as they allow the combination of two liquids that do not normally mix and make the blend stable. Yet, when materials solidify or freeze, the complex interactions that take place and affect the final microstructure of the solidified components, are still poorly understood. ERC grantee Sylvain Deville and his team at CNRS have showed that it is possible to use an optical imaging technique to study the freezing of emulsions while the process takes place, a novel method presented in the prestigious journal Science.
It has long been a sci-fi dream to have a humanoid robot in our everyday life. Soon that dream may seem even more vivid, thanks to Dr Pierre-Yves Oudeyer’s ERC-funded project. His team has developed the first complete open-source 3D printed humanoid robot, called “Poppy”. Poppy is a robot that anybody can build – its body is 3D printed and its behaviour programmed by the user. The technology will be of benefit to the fields of science, engineering, education and even the arts.
Toxic spills can be devastating to humans, animals and to the ecosystem The ERC-funded project CHOBOTIX has successfully created the first prototypes of chemical robots that could serve for "Intelligent Cleaning". These tiny robots could have applications in various fields, from seeking out a source of contamination and neutralise it in toxic waters to treating patients in a more efficient way by delivering them the exact amount of drug without dosing the whole body of patients.