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13 Research products, page 1 of 2

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  • Publication . Part of book or chapter of book . Conference object . 2014
    Open Access
    Authors: 
    Duccio Troiano; Andrés García Morro; Alessandro Merlo; Eduardo Vendrell Vidal;
    Publisher: Springer International Publishing
    Country: Italy

    Despite extensive research having been conducted on the subject, the problem of three-dimensional information systems for historical cities is actually still unresolved. In addition, commercially available software seems to be increasingly aiming at a quick development of unspecific urban settings, rather than at a metrically and perceptively faithful representation of reality. In this scenario, the SIUR 3D software (Sistema Informativo URbano tridimensionale) is based on a management structure that links an interactive, photorealistic and metrically reliable model of a city with a qualitative database of the historical, archaeological and material scope of an architectural part. Such application uses the Unity 3D game engine for geometrical models management and is equipped for online data sharing.

  • Open Access
    Authors: 
    Méndez Rodríguez, Eva María;
    Country: Spain

    Ponencia presentada en las Jornadas 20 Años del Consorcio Madroño: Las bibliotecas universitarias ante los retos del futuro, celebradas en Madrid del 20 al 21 de junio de 2019.

  • Open Access English
    Authors: 
    DataCloud Collaboration; Salomoni, Davide; Campos, Isabel; Gaido, Luciano; de Lucas, Jesus Marco; Solagna, Peter; Gomes, Jorge; Matyska, Ludek; Fuhrman, Patrick; Hardt, Marcus; +54 more
    Project: EC | INDIGO-DataCloud (653549)

    This paper describes the achievements of the H2020 project INDIGO-DataCloud. The project has provided e-infrastructures with tools, applications and cloud framework enhancements to manage the demanding requirements of scientific communities, either locally or through enhanced interfaces. The middleware developed allows to federate hybrid resources, to easily write, port and run scientific applications to the cloud. In particular, we have extended existing PaaS (Platform as a Service) solutions, allowing public and private e-infrastructures, including those provided by EGI, EUDAT, and Helix Nebula, to integrate their existing services and make them available through AAI services compliant with GEANT interfederation policies, thus guaranteeing transparency and trust in the provisioning of such services. Our middleware facilitates the execution of applications using containers on Cloud and Grid based infrastructures, as well as on HPC clusters. Our developments are freely downloadable as open source components, and are already being integrated into many scientific applications. 39 pages, 15 figures.Version accepted in Journal of Grid Computing

  • Publication . Conference object . Article . 2015
    Open Access
    Authors: 
    Enol Fernández-del-Castillo; Diego Scardaci; Álvaro López García;
    Publisher: Elsevier
    Country: Spain
    Project: EC | EGI-Engage (654142), EC | EGI-Engage (654142)

    The EGI Federated Cloud is a standards-based open cloud system that offers a scalable and flexible e-infrastructure to the European research community, and extends the EGI computational offer beyond the traditional High Throughput Computing of the grid plat- form with new models like long-lived services and on demand computation. The EGI Cloud technology enables the federation of institutional clouds to run scientists workloads, simulations and services spanned across multiple administrative locations, allowing the users to access and exploit its resources as a unique system. The architecture of the federation was defined after a two year period of development based on a set of user stories describing operations on a cloud infrascturues and was officially launched in May 2014. Since then the EGI Federated Cloud operates as a federation of heterogeneous Infrastructure as a Service type clouds with every participating provider implementing the same set of interfaces towards users and system administrators. Enforcing cloud technology agnosticism and of supporting service mobility by means of open standards has also allowed for the inclusion of commercial cloud providers into an infrastructure previously supported only by academic institutions. This contributes to a wider goal of the funders to create economic and social impact from supported research activities. This paper details the state of the art, the design and development processes, and the organisational effort that have lead to the creation and deployment of the EGI Cloud Platform. Under a Creative Commons license.-- Trabajo presentado a: 1st International Conference on Cloud Forward: From Distributed to Complete Computing. The authors acknowledge the support of the EGI-Engage project [RI-654142] and the use of resources provided by the European Grid Infrastructure. Peer Reviewed

  • Open Access English
    Authors: 
    Davide Salomoni; Isabel Campos; Luciano Gaido; J. Marco de Lucas; P. Solagna; Jorge Gomes; Luděk Matyska; P. Fuhrman; Marcus Hardt; Giacinto Donvito; +43 more
    Countries: Italy, Netherlands, Netherlands, Spain, Croatia, Italy, Germany, Croatia, Italy, Croatia ...
    Project: EC | INDIGO-DataCloud (653549), EC | EOSC-hub (777536), EC | INDIGO-DataCloud (653549), EC | EOSC-hub (777536)

    This paper describes the achievements of the H2020 project INDIGO-DataCloud. The project has provided e-infrastructures with tools, applications and cloud framework enhancements to manage the demanding requirements of scientific communities, either locally or through enhanced interfaces. The middleware developed allows to federate hybrid resources, to easily write, port and run scientific applications to the cloud. In particular, we have extended existing PaaS (Platform as a Service) solutions, allowing public and private e-infrastructures, including those provided by EGI, EUDAT, and Helix Nebula, to integrate their existing services and make them available through AAI services compliant with GEANT interfederation policies, thus guaranteeing transparency and trust in the provisioning of such services. Our middleware facilitates the execution of applications using containers on Cloud and Grid based infrastructures, as well as on HPC clusters. Our developments are freely downloadable as open source components, and are already being integrated into many scientific applications. INDIGO-Datacloud has been funded by the European Commision H2020 research and innovation program under grant agreement RIA 653549. Peer reviewed

  • Open Access English
    Authors: 
    Helene Brinken; Iryna Kuchma; Vasso Kalaitzi; Joy Davidson; Nancy Pontika; Matteo Cancellieri; Antónia Correia; José Carvalho; Remedios Melero; Damjana Kastelic; +7 more
    Publisher: openjournals.nl
    Countries: Spain, Portugal, Germany, Portugal, Germany
    Project: EC | FOSTER Plus (741839), EC | FOSTER Plus (741839)

    To foster responsible research and innovation, research communities, institutions, and funders are shifting their practices and requirements towards Open Science. Open Science skills are becoming increasingly essential for researchers. Indeed general awareness of Open Science has grown among EU researchers, but the practical adoption can be further improved. Recognizing a gap between the needed and the provided training offer, the FOSTER project offers practical guidance and training to help researchers learn how to open up their research within a particular domain or research environment. Aiming for a sustainable approach, FOSTER focused on strengthening the Open Science training capacity by establishing and supporting a community of trainers. The creation of an Open Science training handbook was a first step towards bringing together trainers to share their experiences and to create an open and living knowledge resource. A subsequent series of train-the-trainer bootcamps helped trainers to find inspiration, improve their skills and to intensify exchange within a peer group. Four trainers, who attended one of the bootcamps, contributed a case study on their experiences and how they rolled out Open Science training within their own institutions. On its platform the project provides a range of online courses and resources to learn about key Open Science topics. FOSTER awards users gamification badges when completing courses in order to provide incentives and rewards, and to spur them on to even greater achievements in learning. The paper at hand describes FOSTER Plus’ training strategies, shares the lessons learnt and provides guidance on how to re-use the project’s materials and training approaches. Peer reviewed

  • Open Access
    Authors: 
    Benamí Barros García;
    Publisher: Edicions de la Universitat de Barcelona
    Country: Spain

    El discurso en las obras de F. M. Dostoievski lleva más de 150 años atrayendo la atención de numerosos especialistas, cada vez procedentes de ámbitos más dispares. Con la consolidación de las Humanidades digitales (HD) como espacio necesariamente interdisciplinar se han conseguido interesantes avances y no menos sugestivas propuestas que parecen arrojar luz sobre la interpretación de ciertas cuestiones narratológicas de las obras de este autor. En el presente estudio abordaremos el estado actual de la imbricación de las HD y los estudios literarios y mostraremos el potencial del análisis cuantitativo, las técnicas de visualización y el análisis de redes para el estudio de textos literarios y, en particular, de la obra literaria de Dostoievski. El discurs en les obres de F. M. Dostoievski porta més de 150 anys atraient l’atenció de nombrosos especialistes, cada vegada procedents d’àmbits més dispars. Amb la consolidació de les Humanitats digitals (HD) com a espai necessàriament interdisciplinari s’han aconseguit interessants avanços i no menys suggestives propostes que semblen llançar llum sobre la interpretació d’unes certes qüestions narratològiques de les obres d’aquest autor. En el present estudi abordarem l’estat actual de la imbricació de les HD i els Estudis literaris i mostrarem el potencial de l’anàlisi quantitativa, les tècniques de visualització i l’anàlisi de xarxes per a l’estudi de textos literaris i, en particular, de l’obra literària de Dostoievski. Discourse in Dostoevsky’s works has drawn the attention of numerous specialists in increasingly diverse fields for more than 150 years. As Digital Humanities (DH) become consolidated as an interdisciplinary space of research, interesting advances and proposals have been made that seem to shed new light on the interpretation of certain narratological questions in the works of this author. This contribution studies the current state of intersection of DH with Literary Studies and shows the potential of quantitative analysis, data visualization techniques and network analysis as applied to the study of literary texts and, particularly, the literary works Dostoevsky.

  • Open Access English
    Authors: 
    Duarte, Afonso M S; Psomopoulos, Fotis E; Blanchet, Christophe; Bonvin, Alexandre M J J; Corpas, Manuel; Franc, Alain; Jimenez, Rafael C; de Lucas, Jesus M; Nyrönen, Tommi; Sipos, Gergely; +3 more
    Publisher: HAL CCSD
    Countries: Spain, Spain, Netherlands, Netherlands, France
    Project: FCT | EXPL/BBB-BEP/1356/2013 (EXPL/BBB-BEP/1356/2013), AKA | ELIXIR - Data for Life Eu... (273655), WT , EC | WENMR (261572), EC | EGI-INSPIRE (261323), EC | BIOMEDBRIDGES (284209), FCT | SFRH/BPD/78075/2011 (SFRH/BPD/78075/2011), FCT | EXPL/BBB-BEP/1356/2013 (EXPL/BBB-BEP/1356/2013), AKA | ELIXIR - Data for Life Eu... (273655), WT ,...

    With the increasingly rapid growth of data in life sciences we are witnessing a major transition in the way research is conducted, from hypothesis-driven studies to data-driven simulations of whole systems. Such approaches necessitate the use of large-scale computational resources and e-infrastructures, such as the European Grid Infrastructure (EGI). EGI, one of key the enablers of the digital European Research Area, is a federation of resource providers set up to deliver sustainable, integrated and secure computing services to European researchers and their international partners. Here we aim to provide the state of the art of Grid/Cloud computing in EU research as viewed from within the field of life sciences, focusing on key infrastructures and projects within the life sciences community. Rather than focusing purely on the technical aspects underlying the currently provided solutions, we outline the design aspects and key characteristics that can be identified across major research approaches. Overall, we aim to provide significant insights into the road ahead by establishing ever-strengthening connections between EGI as a whole and the life sciences community. AD was supported by Fundação para a Ciência e a Tecnologia, Portugal (SFRH/BPD/78075/2011 and EXPL/BBBBEP/1356/2013). FP has been supported by the National Grid Infrastructure NGI_GRNET, HellasGRID, as part of the EGI. IFB acknowledges funding from the “National Infrastructures in Biology and Health” call of the French “Investments for the Future” initiative. The WeNMR project has been funded by a European FP7 e-Infrastructure grant, contract no. 261572. AF was supported by a grant from Labex CEBA (Centre d’études de la Biodiversité Amazonienne) from ANR. MC is supported by UK’s BBSRC core funding. CSC was supported by Academy of Finland grant No. 273655 for ELIXIR Finland. The EGI-InSPIRE project (Integrated Sustainable Pan-European Infrastructure for Researchers in Europe) is co-funded by the European Commission (contract number: RI-261323). The BioMedBridges project is funded by the European Commission within Research Infrastructures of the FP7 Capacities Specific Programme, grant agreement number 284209. This is an open-access article.-- et al. Peer Reviewed

  • Open Access English
    Authors: 
    Marica Antonacci; Alberto Brigandì; Miguel Caballer; Eva Cetinic; Davor Davidović; Giacinto Donvito; Germán Moltó; Davide Salomoni;
    Country: Croatia
    Project: EC | INDIGO-DataCloud (653549), EC | INDIGO-DataCloud (653549)

    In the framework of the H2020 INDIGO-DataCloud project, we have implemented an advanced solution for the automatic deployment of digital data repositories based on Invenio, the digital library framework developed by CERN. Exploiting cutting-edge technologies, such as Docker and Apache Mesos, and standard specifications to describe application architectures such as TOSCA, we are able to provide a service that simplifies the process of creating and managing repositories of various digital assets using cloud resources. An Invenio-based repository consists of a set of services (e.g. database, message queue, cache, workers and frontend) that need to be properly installed, configured and linked together. These operations, along with the provisioning of the resources and their monitoring and maintenance, can be challenging for individual researchers or small-to-moderate-sized research groups. To this purpose, the INDIGO-DataCloud platform provides advanced features for orchestrating the deployment of complex virtual infrastructures on distributed cloud environments: it is able to provision the required resources automatically over heterogeneous and/or hybrid cloud infrastructures and to configure them automatically ensuring dynamic elasticity and resilience. This approach has been successfully adapted to support the needs of the researchers and scholars in the domain of the Digital Arts and Humanities.

  • Publication . Conference object . Article . Other literature type . 2018
    Open Access
    Authors: 
    A. Respaldiza; Monica Wachowicz; A. Vázquez Hoehne;
    Country: Spain

    Abstract. Cultural heritage is a complex and diverse concept, which brings together a wide domain of information. Resources linked to a cultural heritage site may consist of physical artefacts, books, works of art, pictures, historical maps, aerial photographs, archaeological surveys and 3D models. Moreover, all these resources are listed and described by a set of a variety of metadata specifications that allow their online search and consultation on the most basic characteristics of them. Some examples include Norma ISO 19115, Dublin Core, AAT, CDWA, CCO, DACS, MARC, MoReq, MODS, MuseumDat, TGN, SPECTRUM, VRA Core and Z39.50. Gateways are in place to fit in these metadata standards into those used in a SDI (ISO 19115 or INSPIRE), but substantial work still remains to be done for the complete incorporation of cultural heritage information. Therefore, the aim of this paper is to demonstrate how the complexity of cultural heritage resources can be dealt with by a visual exploration of their metadata within a 3D collaborative environment. The 3D collaborative environments are promising tools that represent the new frontier of our capacity of learning, understanding, communicating and transmitting culture.