Our third newsletter including information about our main achievements during the second 6 months project period.
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D8.6 VINEYARD Project website
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Un Robot assistivo per pazienti con demenza: il progetto europeo MARIO.
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p>Information and Communication Technologies (ICT) solutions can be used to increase psychological skills like resilience and to manage active and healthy aging with the use of caring service robots as will be explored with the EU funded MARIO project./p>
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Impiego della robotica come supporto alla gestione della malattia di Alzheimer.
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INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 programme. It kicked off in September 2020 and is the successor to the INCEFA-PLUS programme. The objective is to continue work, advancing the ability to predict lifetimes of Nuclear Plant components when subjected to Environmental Assisted Fatigue (EAF) loading. The main issue addressed by INCEFA-SCALE is the transferability of laboratory-scale tests to real nuclear components. The project strategy will be (1) the development of comprehensive mechanistic understanding developed through detailed examination of test specimens and data mining, and (2) testing focussed on particular aspects of component-scale cyclic loading. From these data, one of the main objectives is to derive an EAF assessment procedure that can be used by assessors for the extrapolation of laboratory test data to real component geometries and conditions, for lifetime calculations. This paper will give an overview of the INCEFA-SCALE modelling plans and some illustrations on the 5 main topics that have been identified: (1) numerical analyses to support test design and interpretation, (2) data mining, (3) review of the codified methods, (4) fatigue damage modelling and noncodified approaches to better address for fatigue damage mechanisms, and (5) industrial application. Open access abstract of PVP2023-101351
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Presentation of the research projects of the IRCCS Casa Sollievo della Sofferenza.
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Sustainable urban mobility planning (SUMP) is a strategic and integrated approach to dealing with the complexity of urban transport. One of its eight principles emphasises the importance of taking the entire functional urban area into consideration when developing and implementing such a strategic plan. What must not be forgotten, however, is that a city consists of many different neighbourhoods and this planning level is of equal importance. This SUMP topic guide highlights ways in which planning efforts at the neighbourhood level and at the city-wide level can complement one another. It is based on the experience of the CIVITAS project SUNRISE and its sister projects. The document highlights the specific advantages of planning for sustainable mobility at the neighbourhood level. The neighbourhood is where people’s everyday-life unfolds and where many mobility-related choices are anchored and determined. It is also a spatial level with certain features that can and should be utilised on the way to a more sustainable mobility system. This includes short distances that are conducive to active modes of transport, but also a shared sense of identity, detailed local knowledge and established communication channels etc. Another key advantage of working at the neighbourhood-level is the opportunity to involve residents and stakeholders intensively along all steps of the innovation chain – much more than what is typically possible in city-wide (SUMP) planning processes: The identification of problems, the development of measures, their implementation and their evaluation. The starting point of this Topic Guide is therefore the nexus between “co-creation” as a procedural approach and the neighbourhood as a spatial / social unit. However, there is usually a lack of power at the neighbourhood level, a lack of specialist expertise, of quality data, of paid staff capacity and of influence on infrastructure decisions that affect the neighbourhood. All of this means that efforts at the neighbourhood-level should be “joined-up” with efforts at the city-wide level. It also means that if a city’s high-level mobility planning ignores the reality in its many neighbourhoods, it runs the risk of “structural arrogance” and/or ignorance and simply of limited effectiveness. In other words, if mobility does not “work” in the various neighbourhoods it is unlikely to work in the city as a whole. Therefore, neighbourhood-based and city-wide planning must be aligned. The Topic Guide highlights situations where this alignment makes most sense and how such an alignment can be achieved. If well coordinated, SUMP activities can support actions at the neighbourhood level in various ways and ensure that decentral efforts are compatible with city-wide goals and measures. Vice versa, initiatives for sustainable mobility in a neighbourhood can be the spearhead of certain measures that are supposed to be implemented in the entire city. This document corresponds to Deliverable D3.6 of the Horizon 2020 project SUNRISE. See https://civitas-sunrise.eu/resources/publications
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INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 program. It is the successor to the INCEFA-PLUS project that ran from 2015 to 2020. Both projects try to address existing gaps between the fatigue behavior of stainless steels in the laboratory, real fatigue behavior observed in nuclear components during operating service, and provide guidance on how to account for the studied behavior in fatigue assessments. These programmes are contributing to a database with a large number of parameters (strain amplitude, strain rate, temperature, surface roughness, hold time periods, chemistry, etc.). Once the International Fatigue Database Agreement is signed, this database will be augmented with fatigue data shared by international organisations from the US, Korea, Japan and Europe. This will enable INCEFA-SCALE to investigate one of the largest fatigue databases in the world. However, a database compiled from a range of sources with differing objectives creates an issue for analyists as the data will not necessarily be balanced. The impact that this issue may have on an analysis can be mititgated through good data screening and selection practice that must be informed by data visualization. One of the objectives of the INCEFA-SCALE data mining workpackage is to develop and provide a set of tools to aid in this mitigation as well as enabling the statistical analysis of the broader dataset. During the INCEFA-SCALE project, a data mining tool was developed to statistically analyze all data available to date . In this paper, these tools are presented and, as a proof of concept, used to analyse the available using similar concepts to that of INCEFA-PLUS. To aid in the evaluation of the database and tools expressions for predicting fatigue life of stainless steel specimens in air and ligh water reactor primary coolant conditions are provided. A key requirement of these data exploration and analysis tools is that they are generally accessible and available to the INCEFA-SCALE community to support collaborative data analysis.. The conclusions and findings extracted from this data mining analysis are shown and compared with the current procedures most used in environmental fatigue analyses of nuclear components and systems. Open access abstract of PVP2023-106618
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Our fourth newsletter including information about the main activities and achievements of the project during the last months.
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Our third newsletter including information about our main achievements during the second 6 months project period.
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D8.6 VINEYARD Project website
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Un Robot assistivo per pazienti con demenza: il progetto europeo MARIO.
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p>Information and Communication Technologies (ICT) solutions can be used to increase psychological skills like resilience and to manage active and healthy aging with the use of caring service robots as will be explored with the EU funded MARIO project./p>
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Impiego della robotica come supporto alla gestione della malattia di Alzheimer.
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INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 programme. It kicked off in September 2020 and is the successor to the INCEFA-PLUS programme. The objective is to continue work, advancing the ability to predict lifetimes of Nuclear Plant components when subjected to Environmental Assisted Fatigue (EAF) loading. The main issue addressed by INCEFA-SCALE is the transferability of laboratory-scale tests to real nuclear components. The project strategy will be (1) the development of comprehensive mechanistic understanding developed through detailed examination of test specimens and data mining, and (2) testing focussed on particular aspects of component-scale cyclic loading. From these data, one of the main objectives is to derive an EAF assessment procedure that can be used by assessors for the extrapolation of laboratory test data to real component geometries and conditions, for lifetime calculations. This paper will give an overview of the INCEFA-SCALE modelling plans and some illustrations on the 5 main topics that have been identified: (1) numerical analyses to support test design and interpretation, (2) data mining, (3) review of the codified methods, (4) fatigue damage modelling and noncodified approaches to better address for fatigue damage mechanisms, and (5) industrial application. Open access abstract of PVP2023-101351
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