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ELECTION SERIES #4
The EU-funded POLCON project aims to understand the impact that the Great Recession has had on the development of political conflict in Europe.
Agnieszka Wykowska is a senior researcher of the Social Cognition in Human-Robot Interaction at the Italian Institute of Technology (Istituto Italiano di Tecnologia) in Genova, Italy. In 2016 she has been awarded an ERC Starting Grant for her project “Intentional Stance for Social Attunement” whose goal is to investigate if humans are ready to engage in social interactions with humanoid robots. Dr Wykowska will present her findings at the ERC's conference Frontier Research and Artificial Intelligence.
Dr Joaquim Alves Gaspar is a man of the sea. After many years in the Portuguese Navy, he gave up plans to become an admiral in favour of pursuing a PhD in the History of Cartography. This second career led him to receive an ERC Starting Grant, the first awarded in this budding discipline. With his highly multidisciplinary team (he likes to say that, to work with him, one must be a mathematician fluent in Latin), and the experience obtained as a navigator and navigational instructor, Dr Gaspar hopes to understand how and when the first nautical charts were created. The MEDEA-CHART team is the best place in Portugal, and probably in the world, to study the history of nautical cartography, hoping that this work will provide the domain with its rightful recognition within world history.
ERC grantee Renata Sõukand is exploring to what extent local ecological practices concerning the use of plants, among selected ethnic minorities in Eastern Europe, have declined due to the centralization imposed by dominant practices through the impacts on natural resources, health, economies and the well-being of local communities.
ERC grantee Prof. Maria Antonietta De Matteis studies membrane trafficking in cells and how its components interact and are regulated to guarantee a healthy cell function. Her work could revolutionise our understanding of this key biological process.
The use and misuse of antibiotics has accelerated the emergence of drug-resistant bacterial strains, threatening our ability to treat common diseases. EU-funded research has shed new light on the mechanisms behind these microbial mutations, with implications for our understanding of diseases and resistance to treatment.
Maria Brandão de Vasconcelos, together with her colleague Filipa Matos Baptista, Henrique Veiga-Fernandes (ERC grantee), Diogo Fonseca Pereira and Sílvia Arroz Madeira, founded StemCell2MAX in 2015. The company is a biotechnology start-up, specialised in cell based therapies, including novel solutions to multiply the scarcely available blood stem cells, addressing an enormous demand for research and cancer treatment. StemCell2MAX technology is based on Prof. Veiga-Fernandes's ground-breaking discoveries in hematopoietic stem cell biology.
Originally published in March 2017 as part of the multimedia campaign "ERC - 10 years – 10 portraits."
An ERC-funded project has significantly increased understanding of the crucial role that microorganisms in the gut play in maintaining health. The findings have since led to a patent, as well as a follow-on project that could one day steer the way to new targeted treatments for diseases, including cancer.
European researchers have designed brain-like artificial neural networks capable of numerical and spatial cognition and written language processing without any explicit training or pre-programming. Their work, based on the machine-learning approach of generative models, significantly advances the development of self-learning artificial intelligence, while also deepening understanding of human cognition.
Haematopoietic Stem Cells (HSCs) are blood cells located in the bone marrow. These cells are extensively used in research to develop treatments for many severe diseases, including HIV and multiple sclerosis, and their transplant is a key therapy for certain types of cancer like leukemia and multiple myeloma. However, the use of HSCs is seriously constrained by their limited availability since growing them in the lab does not produce very large quantities. There is therefore an urgent need for methods allowing scientists to multiply HSCs, without losing any of their properties.