The amount of currently available biomedical data is overwhelming. Large databases exist at different scales, from genes, to proteins, to patients' histories. But what do scientists do with all this information? Serbian-born Professor Nataša Pržulj, from University College London, works with Big Data to establish patterns and gain knowledge that could revolutionise how we treat diseases.
Travellers already benefit from applications harnessing data from sensor networks and smartphone users. They calculate alternative routes, help plan carpooling routes, or support the optimisation of public transport. With her ERC grant, Prof. Vana Kalogeraki works on a comprehensive software framework that will simplify the development of such mobile human-centred systems and make them more predictable and reliable.
In only three years’ time, Dr Jan Tkač went from being the first ERC grantee in Slovakia to obtaining the “2015 Scientist of the Year” award. His research in the field of glyconomics could emerge as a turning point for the diagnosis of cell-related diseases.
Magdalena Król is Professor at the Faculty of Veterinary Medicine of the Warsaw University of Life Sciences (SGGW) in Poland. She specializes in cancer research. Since 2006 Professor Król and her team have been investigating canine mammary cancer with particular focus on cancer metastasis and tumor microenvironment. Now she develops innovative cell-based method of drug delivery to solid tumors. Her discoveries about interactions between immune cells and cancer cells may one day revolutionize the treatment of cancer.
Originally published in March 2017 as part of the multimedia campaign "ERC - 10 years – 10 portraits."
Is a precise answer always better than a slightly less detailed one? Not necessarily. Some problems could take forever to compute and tie up vast IT capacity. Where solutions are needed urgently, e.g. in business or manufacturing, near-enough can be more than enough. ERC-funded research has produced a library of fast, powerful approximation algorithms.
Why do so many diabetes patients develop kidney disease, and how can we improve prevention? EU-funded research has examined insulin-related processes at play in impaired renal function — and it may have found a way to protect key cells that help to filter our blood.
We are nowadays in the middle of the second quantum revolution. The first one brought forward the rules that govern physics at the atomic level – the quantum mechanics. The second entails the use of these rules for developing new technologies. In his ERC-funded project, Prof. Andris Ambainis from the University of Latvia investigates new methods of developing quantum algorithms and the limits of quantum computing.
Tired of endlessly looking for a parking spot? Dreaming of having a bird's-eye view to locate free spaces in a congested city? ERC grantee Prof Luc Van Gool is a research leader in the area of computer vison. With his project "VarCity", he works to innovate existing 3D city modelling by using object class recognition methods and crowd generated data. To apply his idea, Prof. Van Gool received an additional ERC Proof of Concept grant and created a spin-off that commercialises a video-based smart parking system. In the city of Locarno, Switzerland, "Parquery" stands the test.
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.
Compared to humans, the sensing and dexterity of current robots is extremely limited. Reproducing these fundamental human abilities in robotics systems requires a new scientific and technological approach, according to Professor Danica Kragic.
