The overall objective of FutureEUAqua is to effectively promote sustainable growth of resilient to climate changes, environmental friendly organic and conventional aquaculture of major fish species and low trophic level organisms in Europe, to meet future challenges with respect to the growing consumer demand for high quality, nutritious and responsibly produced food. To this end, FutureEUAqua will promote innovations in the whole value chain, including genetic selection, ingredients and feeds, non-invasive monitoring technologies, innovative fish products and packaging methods, optimal production systems such as IMTA and RAS, taking into account socioeconomic considerations by the participation of a wide spectrum of stakeholders, training and dissemination activities. To achieve the objective and to relate to the work program, nine work-packages will contribute to improvements of future aquaculture. To ensure sustainable and resilient production of fish in the future we will work with tailor made fish and feed (WP1 and WP2), and validate fish performance and water quality in cost-effective production systems (WP4). Consumer demand and awareness of how to choose sustainable and climate friendly seafood is part of WP3. With the increasing production of seafood, we face space-conflicts, which, in combination with the current regulatory frameworks will be considered (WP3). Wireless sensor technology (WP5) for health and welfare monitoring and novel technology for product quality and packaging (WP6) to meet future demands, will be implemented. Stakeholders' knowledge and views will be important, and communication, dissemination (WP8) as well as training sessions (WP7) will be emphasized

PULSE pursues the ambitious goal of defining a new technological horizon for implementing reconfigurable electromagnetic devices by unifying the research domains of metasurfaces with the plasma physics. The advantages retuned by plasma when combined with metasurfaces are multiple: first, plasma allows overcoming the main limitations of conventional reconfigurability strategies and achieving unprecedented tunability rate at high frequencies. Additionally, plasma enables conceptually new scenarios in which the individual properties of the meta-atoms, and even their shape/size, can be time-modulated. The project, thus, is aimed to fully merging two different research fields for establishing a radically new technology (plasma metadevices) offering unprecedented possibilities. To address this vision, several science-to-technology breakthroughs are proposed, including tunable lenses for antennas, non-reciprocal devices in waveguide technology and four-dimensional (4D) devices, in which the variation of the shape over the time becomes an additional degree of freedom to achieve new effects at the fundamental level. PULSE's technological goals are beyond the state-of-the-art and outside any scientific and technological roadmap of the involved scientific communities. In addition, it is expected that PULSE will also have a dramatic economic and society impact. The unprecedented functionalities of the plasma-based metadevices, in fact, can address the increasingly stringent requirements of the next-generation telecommunication systems. To achieve PULSE's ambitious scopes, the Consortium has been built for success in terms of industry and academic excellence. We have brought together a Consortium with a true European dimension, with eigth beneficiaries from Italy, Spain, Finland, Greece and Belgium. Our expertise is interdisciplinary, complementary and characterized by appropriateness of equipment in all the involved scientific and technological domains.