Lecce, Italy

University of Salento

www.unisalento.it/
Lecce, Italy

The University of Salento is a university located in Lecce, Italy. It was founded in 1955 and is organized in 10 Faculties.The University of Salento commenced activities in the academic year 1955-56 under the “Salentine University Council”. In 1960 it became the “Free University of Lecce” and passed to Government authority in the 1967/68 academic year.Since 2005, the University of Salento is a partner of the Euro-Mediterranean Center for Climate Change . Wikipedia.


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Patent
National Research Council Italy and University of Salento | Date: 2017-01-23

Method and related system for measuring physiological parameters of a human subject undergoing an olfactory stimulation comprising one or more smelling olfactory stimuli, where by means of said system and according to said method a human subject is undergone to said olfactory stimulation by sending said one or more smelling olfactory stimuli to the human subject; one or more physiological parameters of the human subject are recorded; and said olfactory stimulation and physiological parameters recording are synchronized.


Patent
National Research Council Italy and University of Salento | Date: 2017-05-31

Method and related system for measuring physiological parameters of a human subject undergoing an olfactory stimulation comprising one or more smelling olfactory stimuli, where by means of said system and according to said method a human subject is undergone to said olfactory stimulation by sending said one or more smelling olfactory stimuli to the human subject; one or more physiological parameters of the human subject are recorded; and said olfactory stimulation and physiological parameters recording are synchronized.


Grant
Agency: European Commission | Branch: H2020 | Program: RIA | Phase: SC5-16-2014 | Award Amount: 15.99M | Year: 2015

Terrestrial and marine ecosystems provide essential services to human societies. Anthropogenic pressures, however, cause serious threat to ecosystems, leading to habitat degradation, increased risk of collapse and loss of ecosystem services. Knowledge-based conservation, management and restoration policies are needed to improve ecosystem benefits in face of increasing pressures. ECOPOTENTIAL makes significant progress beyond the state-of-the-art and creates a unified framework for ecosystem studies and management of protected areas (PA). ECOPOTENTIAL focuses on internationally recognized PAs in Europe and beyond in a wide range of biogeographic regions, and it includes UNESCO, Natura2000 and LTER sites and Large Marine Ecosystems. Best use of Earth Observation (EO) and monitoring data is enabled by new EO open-access ecosystem data services (ECOPERNICUS). Modelling approaches including information from EO data are devised, ecosystem services in current and future conditions are assessed and the requirements of future protected areas are defined. Conceptual approaches based on Essential Variables, Macrosystem Ecology and cross-scale interactions allow for a deeper understanding of the Earths Critical Zone. Open and interoperable access to data and knowledge is assured by a GEO Ecosystem Virtual Laboratory Platform, fully integrated in GEOSS. Support to transparent and knowledge-based conservation and management policies, able to include information from EO data, is developed. Knowledge gained in the PAs is upscaled to pan-European conditions and used for planning and management of future PAs. A permanent stakeholder consultancy group (GEO Ecosystem Community of Practice) will be created. Capacity building is pursued at all levels. SMEs are involved to create expertise leading to new job opportunities, ensuring long-term continuation of services. In summary, ECOPOTENTIAL uses the most advanced technologies to improve future ecosystem benefits for humankind.


Grant
Agency: European Commission | Branch: H2020 | Program: RIA | Phase: PHC-21-2015 | Award Amount: 4.47M | Year: 2015

The first and core objective of City4Age is to enable Ambient Assisted Cities or Age-friendly Cities, where the urban communities of elderly people living in Smart Cities are provided with a range of ICT tools and services that - in a completely unobtrusive manner - will improve the early detection of risks related to cognitive impairments and frailty while they are at home or in the move within the city. The second objective is to provide a range of associated tools and services which - with the appropriate interventions - will mitigate the detected risks. The final objective of C4A is to define a model which will provide sustainability and extensibility to the offered services and tools by addressing the unmet needs of the elderly population in terms of (i) detecting risks related to other health type problems, (ii) stimulating and providing incentives to remain active, involved and engaged, (iii) creating an ecosystem for multi-sided market by matching needs and their fulfillments, (iv) contributing to the design and operation of the ultimate Age-friendly City, where the city itself provides support for detecting risks and providing interventions to those affected by mild cognitive impairment (MCI) and frailty. To achieve these objectives City4Age builds on: - behavioural, sociological and clinical research on frailty and MCI in the elderly population; - state of art ICT technology (i) for sensing personal data and exposing them as linked open data, (ii) for designing the algorithms and the APIs to extract relevant behaviour changes and correlated risks, and (iii) for designing interventions to counter the risks, - stakeholder engagement in order to be driven by relevant user needs to ensure end-user acceptance.


Grant
Agency: European Commission | Branch: H2020 | Program: IA | Phase: MG-4.1-2014 | Award Amount: 25.11M | Year: 2015

The project HERCULES-2 is targeting at a fuel-flexible large marine engine, optimally adaptive to its operating environment. The objectives of the HERCULES-2 project are associated to 4 areas of engine integrated R&D: Improving fuel flexibility for seamless switching between different fuel types, including non-conventional fuels. Formulating new materials to support high temperature component applications. Developing adaptive control methodologies to retain performance over the powerplant lifetime. Achieving near-zero emissions, via combined integrated aftertreatment of exhaust gases. The HERCULES-2 is the next phase of the R&D programme HERCULES on large engine technologies, which was initiated in 2004 as a joint vision by the two major European engine manufacturer groups MAN and WARTSILA. Three consecutive projects namely HERCULES - A, -B, -C spanned the years 2004-2014. These three projects produced exceptional results and received worldwide acclaim. The targets of HERCULES-2 build upon and surpass the targets of the previous HERCULES projects, going beyond the limits set by the regulatory authorities. By combining cutting-edge technologies, the Project overall aims at significant fuel consumption and emission reduction targets using integrated solutions, which can quickly mature into commercially available products. Focusing on the applications, the project includes several full-scale prototypes and shipboard demonstrators. The project HERCULES-2 comprises 4 R&D Work Package Groups (WPG): - WPG I: Fuel flexible engine - WPG II: New Materials (Applications in engines) - WPG III: Adaptive Powerplant for Lifetime Performance - WPG IV: Near-Zero Emissions Engine The consortium comprises 32 partners of which 30% are Industrial and 70% are Universities / Research Institutes. The Budget share is 63% Industry and 37% Universities. The HERCULES-2 proposal covers with authority and in full the Work Programme scope B1 of MG.4.1-2014.


Grant
Agency: European Commission | Branch: H2020 | Program: RIA | Phase: INFRADEV-4-2014-2015 | Award Amount: 15.00M | Year: 2015

ENVRIPLUS is a cluster of research infrastructures (RIs) for Environmental and Earth System sciences, built around ESFRI roadmap and associating leading e-infrastructures and Integrating Activities together with technical specialist partners. ENVRIPLUS is driven by 3 overarching goals: 1) favoring cross-fertilization between infrastructures, 2) implementing innovative concepts and devices across RIs, and 3) facilitating research and innovation in the field of environment to an increasing number of users outside the RIs. ENVRIPLUS organizes its activities along a main strategic plan where sharing multi-disciplinary expertise will be most effective. It aims to improve Earth observation monitoring systems and strategies, including actions towards harmonization and innovation, to generate common solutions to many shared information technology and data related challenges, to harmonize policies for access and provide strategies for knowledge transfer amongst RIs. ENVRIPLUS develops guidelines to enhance trans-disciplinary use of data and data-products supported by applied use-cases involving RIs from different domains. ENVRIPLUS coordinates actions to improve communication and cooperation, addressing Environmental RIs at all levels, from management to end-users, implementing RI-staff exchange programs, generating material for RI personnel, and proposing common strategic developments and actions for enhancing services to users and evaluating the socio-economic impacts. ENVRIPLUS is expected to facilitate structuration and improve quality of services offered both within single RIs and at pan-RI level. It promotes efficient and multi-disciplinary research offering new opportunities to users, new tools to RI managers and new communication strategies for environmental RI communities. The produced solutions, services and other project results are made available to all environmental RI initiatives, thus contributing to the development of a consistent European RI ecosystem.


Grant
Agency: European Commission | Branch: H2020 | Program: MSCA-RISE | Phase: MSCA-RISE-2016 | Award Amount: 900.00K | Year: 2017

Since the rise of emerging economies in the global scenario, it has been critical to better understand the role of knowledge and innovation played in this process. We focus on researching not only how knowledge and innovation is managed and generated in emerging markets, but also how traditionally they learned from advanced economies to enhance their innovation capability, and recently the reverse innovation process about how this innovation capability in emerging markets affects and is transferred to advanced economies. With this purpose, the proposed KITFEM research project aims to study the management of knowledge and innovation in, to and from emerging markets, with special emphasis on its impacts on the EU. With the proposed secondments among fifteen partners in nine countries around the world in four continents, between partners from academic sector and non-academic sector, KITFEM combines research on the issue of knowledge and innovation between emerging markets and European enterprises, and knowledge sharing and dissemination around the world to enhance the impact of European innovation. Involving 54 researchers, managers, tech, and administrative staff, KITFEM consists of seven work packages to foster the interaction between scientific community and other stakeholders such as institutions, industries, business, and general civil society, to ensure the popular interests and engagement of the researched topic. In such a way, one work package is dedicated to project management and internal communication and another to external communication, dissemination and outreach activities. Five work packages focus on research, training and dissemination, at multiple levels: Institutional-industrial-organizational-individual. With the designed project structure and competitive capability of the fifteen partners involved, KITFEM is expected to generate high impact in the globe, both in term of research excellence and societal engagement.


Grant
Agency: European Commission | Branch: H2020 | Program: RIA | Phase: BES-02-2015 | Award Amount: 5.13M | Year: 2016

The main objective of the SafeShore project is to cover existing gaps in coastal border surveillance, increasing internal security by preventing cross-border crime such trafficking in human beings and the smuggling of drugs. It is designed to be integrated with existing systems and create a continuous detection line along the border. One of the treats to the maritime coast are small Remotely Piloted Aircraft Systems (RPAS) which can carry explosives or which can be used for smuggling drugs, boats and human intruders on the sea shore. The SafeShore core solution for detecting small targets that are flying at low attitude is to use a 3D LIDAR that scans the sky and creates above the protected area a virtual dome shield. SafeShore will also integrate the 3D LIDAR with passive acoustic sensors, passive radio detection and video analytics. One of SafeShore specific objectives will be to cover 1500-m1800m along the coastal border. This will be done with 3 mobile platforms. Each one of those will cover itself with a dome-shaped virtual detection shield with a radius of about 250m to 300m. There will be approximately 50 meters overlapping between the platforms. The overlapping will create a continuous detection shield along the shore. The SafeShore objective will be to demonstrate the detection capabilities in the missing detection gaps of other existing systems such as costal radars, thereby also ensuring the fusion of information and increasing the situational awareness and better implementation of the European Maritime Security Strategy based on the information exchange frameworks, EUROSUR and EUCISE 2020. All SafeShore objectives are measurable, realistic and achievable within the duration of the project, as the SafeShore project will build 3 prototypes that are going to assess the accomplishment of the objectives. Three end-user scripted and end-user validated field trials will be set up to validate these systems: in the North Sea, Black Sea and Mediterranean.


Grant
Agency: European Commission | Branch: H2020 | Program: ERC-COG | Phase: ERC-CoG-2015 | Award Amount: 1.99M | Year: 2016

This project aims at developing four-dimensional printing of new adaptive systems, namely printing of complex, three-dimensional polymer objects embedding functional compounds and able to change or adapt their physical properties responding to environmental stimuli. Additive manufacturing of three-dimensional objects relies on depositing or curing materials in a layer-by-layer fashion, starting from computer assisted design. These technologies have rapidly evolved from laboratory research to commercially available desktop systems, with costs decreasing continuously. Notwithstanding such astonishing progress, the potentialities of three-dimensional printing are still poorly exploited in terms of both materials and process resolution. This project will shed new light on the fundamental aspects of three-dimensional polymerization, thus establishing new process design rules and predictive tools for printing resolution. It will also specifically engineer additive manufacturing for printing materials embedding active compounds, thus leading to real four-dimensional objects, namely structures that have three-dimensional features and time-changing physical properties at the same time. An integrated approach will be pursued to this aim, where modeling and process engineering will be complemented by process monitoring, in order to establish well defined and reproducible methods for four-dimensional printing of photonic structures. The operation of the adaptive components, for optical computing and data storage, will be based on their nonlinear response to optical inputs. Leading to a new and pioneering laboratory on four-dimensional printing technologies, this project will critically consolidate scientific independence.


Grant
Agency: European Commission | Branch: H2020 | Program: ERC-ADG | Phase: ERC-ADG-2015 | Award Amount: 2.91M | Year: 2016

This project will throw new light on human experience during changes of political regime, selecting medieval Sicily as the primary area of study. Between the 6th century and the 13th century, this island experienced four radical changes in regime: from Byzantine to Aghlabid to Fatimid to Norman to Swabian. Potentially, each of these transitions saw new groups of migrants, new forms of agriculture and settlement, new networks of exchange, new distributions of wealth and new types of social control, and we will discover and describe them. We will then compare the Sicilian experience with that of its neighbours over the same period, and so enhance the history of the countries of the western Mediterranean in their formative years. We also expect to deliver insights on a more general and recurrent phenomenon: the relationship between the driving ideology of an imposed regime, its economic performance and the composition and health of its peoples. This ambitious programme is made possible by new methods of archaeological investigation and the choice of medieval Sicily as the primary area of study. Here we have been given access to data sets from previously unpublished excavations spread throughout Sicily, and permission to investigate a cluster of different types of site at Castronovo in the centre of the island: a Byzantine stronghold, an Islamic and Norman castle and a long-lived agrotown. To these we propose to add two large scale area surveys to study the dynamics of settlement and the way land was used. The integrated archaeological package to be applied is based on research protocols devised by the PI and deploys bioarchaeological methods newly developed at York, in stable isotopes, ancient DNA and the chemical characterisation of residues encountered in pottery. It is new to southern Europe and features techniques that were unavailable anywhere five years ago.

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