Pour que vive le patrimoine écrit : démocratiser son accès

Mémoire de fin d\u27étude du diplôme de conservateur promotion 26, portant sur la démocratisation du patrimoine écrit

Modelado en 3D de una puerta de la ciudad de Rennes del siglo XV: Portes Mordelaises

[EN] The Portes Mordelaises, remnants of the medieval city walls of Rennes, France, has been the subject of several archaeological excavations until 2017. From these excavations, we created a three-dimensional (3D) model of the site reconstructed as it would have appeared during the 15th century, including the surrounding plus the interiors of its famed towers. Once our efforts and results were officially recognised as being of national interest by the French Ministry of Culture and Communication, Department of Heritage and the National Museum Service of France, we presented our virtual model reconstruction in an exhibition curated by the Museum of Bretagne, entitled "Rennes, les vies d'une ville" (Rennes, the Lives of a City). This approach to 3D reconstruction of the site served to further study Rennes’ origins, its construction, organisation, as well as its historic relationship to surrounding territories. The main objective of this work was to investigate, using of a significant and com[ES] Las Portes Mordelaises, restos de las murallas medievales de la ciudad de Rennes, Francia, han sido objeto de varias excavaciones arqueológicas hasta el año 2017. A partir de estas excavaciones, pudimos crear un modelo tridimensional (3D) del sitio reconstruido tal y como habría aparecido durante el siglo XV, incluyendo los terrenos circundantes así como los interiores de sus famosas torres. Una vez que nuestros esfuerzos y resultados fueron reconocidos oficialmente como de interés nacional por el Ministerio de Cultura y Comunicación de Francia, el Departamento de Patrimonio así como el Servicio Nacional de Museos de Francia, presentamos nuestra reconstrucción del modelo virtual en una exposición gestionada por el Museo de Bretaña titulada "Rennes, las vidas de una ciudad”. Este enfoque de la reconstrucción en 3D del sitio sirvió para profundizar en el estudio de los orígenes de Rennes, su construcción, su organización, así como su relación histórica con los territorios circundantes. EBarreau, J.; Esnault, E.; Foucher, J.; Six, M.; Le Faou, C. (2020). 3D modelling of a 15th century city gate of Rennes: Portes Mordelaises. Virtual Archaeology Review. 11(22):41-55. https://doi.org/10.4995/var.2020.12653OJS41551122Ahmad, T., Afzal, M., Hayat, F., Asif, H. S., Ahsan, S., & Saleem, Y. (2012). Need for software design methodology for remote sensing applications. Life Sci Journal, 9(3), 2152-2156.Al-Baghdadi, M. A. S. (2017). 3D printing and 3D scanning of our ancient history: Preservation and protection of our cultural heritage and identity. International Journal of Energy and Environment, 8(5), 441-456.Alix, C., Carron, D., Roux-Capron, E., & Josserand, L. (2016). La porte Bannier, entrée principale de la ville d'Orléans aux XIVe-XVe siècles. Archeologie medievale, (46), 91-122. https://doi.org/10.4000/archeomed.2781Athanasoulis, D., Georgiou, A., Simou, X., Sfika, A., Klotsa, V., Zirogianni, T., Theodoropoulos, C., & Deligianni, E.-O. (2015). Bridging monuments through digital repository and graphic reconstruction methodologies. The Digital Enhancement Project of Argolid, Arcadia and Corinthia castles, Greece. In 2015 Digital Heritage, Vol. 1, (pp. 107- 110). Granada, Spain. https://doi.org/10.1109/digitalheritage.2015.7413846Auer, C. (2017). L'archéologie high tech - xenius arte. Retrieved February 16, 2017, from www.cnrs.fr/CNRSHebdo/bretagne-paysdeloire/actus.php?numero=11666Banfi, F., Brumana, R., & Stanga, C. (2019). Extended reality and informative models for the architectural heritage: from scan-to-BIM process to virtual and augmented reality. Virtual Archaeology Review, 10(21), 14-30. https://doi.org/10.4995/var.2019.11923Barreau, J. B. (2017). Techniques de production, d'exploration et d'analyse d'environnements archéologiques virtuels.(Production, exploration and analysis techniques of virtual archaeological environments) (Doctoral dissertation, INSA de Rennes, France). Retrieved from https://tel.archives-ouvertes.fr/tel-01633811/documentBarreau, J.-B., Bernard, Y., Petit, Q., Beuchet, L., Petit, E., Platen, V., Gaugne, R., Le Rumeur, J., & Gouranton, V. (2014). Combination of 3D scanning, modeling and analyzing methods around the castle of Coatfrec reconstitution. In Digital Heritage. Progress in Cultural Heritage: Documentation, Preservation, and Protection. EuroMed 2014 (pp. 418-426). Limassol, Cyprus. https://doi.org/10.1007/978-3-319-13695-0_40Barreau, J.-B., Gaugne, R., Bernard, Y., Le Cloirec, G., & Gouranton, V. (2013). The West Digital Conservatory of Archaelogical Heritage project. In 2013 Digital Heritage (pp. 1-8). Marseille, France. https://doi.org/10.1109/digitalheritage.2013.6743795Barreau, J.-B., Lanoe, E., & Gaugne, R. (2020). 3D sketching of the fortified entrance of the citadel of Aleppo from a few sightseeing photos. In Kremers H. (Ed.), Digital Cultural Heritage (pp. 359-371). Cham: Springer International Publishing. https://doi.org/10.1007/978-3-030-15200-0_24Barrera-Vera, J. A. (2005). Generation of virtual models of historical tapial walls in Seville (Spain). In VSMM 2005: proceedings of the eleventh International Conference on Virtual Systems and Multimedia: Virtual reality at work in the 21st century: impact on society. Ghent, Belgium.Bayraktar, C. (2016). V-RAY 3.3. Istanbul: Kodlab Yayin Dağitim Yazilim Ltd.şti.Boochs, F., Hoffmann, A., Huxhagen, U., & Welter, D. (2006). Digital reconstruction of archeological objects using hybrid sensing techniques-The example Porta Nigra at Trier. Bar International Series, 1568, 395-400.Bosser, A. G. (2004). 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Retrieved June 14, 2019, from https://www.1jour1actu.com/science/grace-aux-nouvelles-technologies-les-archeologues-sont-plus-efficacesDelone, W. H., & McLean, E. R. (2003). The DeLone and McLean model of Information Systems success: a ten-year update. Journal of Management Information Systems, 19(4), 9-30. https://doi.org/10.1080/07421222.2003.11045748Du Crest de Villeneuve, E.-R., & Lorette, H. (1841). Album Breton: souvenirs de Rennes. Rennes: Ambroise Jausions.Esnault, E. (2012). RENNES (35). Les Portes Mordelaises. Rapport intermédiaire de fp. Fouille programmée, RAP02792, Service Régional de l'Archéologie de Bretagne. Retrieved from http://bibliotheque.numerique.srabretagne.fr/files/original/d5dcfe1a4491a228ffac3aa84cca0226.pdfEsnault, E. (2013). Rennes (Ille-et-Vilaine). Les portes Mordelaises. Archéologie Médiévale, 43, 273-274.Esnault, E. (2014a). RENNES (35). Les Portes Mordelaises. Rapport intermédiaire de fp 2012-2014. Fouille programmée, RAP02919, Service Régional de l'Archéologie de Bretagne. Retrieved from http://bibliotheque.numerique.sra-bretagne.fr/files/original/f3e868678cdd1dd64a9cd2fd12efde4b.pdfEsnault, E. (2014b). Rennes (Ille-et-Vilaine). Les portes Mordelaises. Archéologie Médiévale, 44, 279.Esnault, E. (2015a). RENNES (35). Les Portes Mordelaises. Rapport intermédiaire de fp. Fouille programmée, RAP03063, Service Régional de l'Archéologie de Bretagne. Retrieved from http://bibliotheque.numerique.srabretagne.fr/files/original/912019e9c7133236f6611868b3b0fa86.pdfEsnault, E. (2015b). Rennes (Ille-et-Vilaine). Les portes Mordelaises. Archéologie Médiévale, 45, 250-251.Esnault, E. (2016a). RENNES (35). Les Portes Mordelaises. Rapport intermediaire 2015 de FP. Fouille programmée, RAP03203, Service Régional de l'Archéologie de Bretagne. Retrieved from http://bibliotheque.numerique.srabretagne.fr/files/original/034c4915717c242d2af1df753ce91089.pdfEsnault, E. (2016b). Rennes (Ille-et-Vilaine). Les portes Mordelaises. Archéologie Médiévale, 46, 266-267.Esnault, E. (2017a). RENNES (35). Les Portes Mordelaises. Rapport intermediaire 2016 de FP. Fouille programmée, RAP03386, Service Régional de l'Archéologie de Bretagne. Retrieved from http://bibliotheque.numerique.srabretagne.fr/files/original/bcc431b25e3267e4b6995701b6af4594.pdfEsnault, E. (2017b). Rennes (Ille-et-Vilaine). Les portes Mordelaises. Archéologie Médiévale, 47, 246-247.Esnault, E. (2018a). Les fortifications médiévales et les Portes Mordelaises. Retrieved January 5, 2020 from https://multimedia.inrap.fr/atlas/Rennes/syntheses/par-themes/Les-fortifications-medievales-et-les-PortesMordelaises#.XhzRNiNCeUkEsnault, E. (2018b). Les nouvelles techniques de relevés appliquées à l'archéologie du bâti et à l'archéologie urbaine. In S. Eusèbe, T. Nicolas, V. Gouranton, & R. Gaugne (Dir.) - Archéologie: imagerie numérique et 3D: Actes du 3e Séminaire Scientifique et Technique de l'Inrap, 26-27 juin 2018. Rennes, France. Retrieved from https://sstinrap.hypotheses.org/501Esnault, E. (2018c). RENNES (35). Les Portes Mordelaises. Rapport intermediaire 2017 de FP. Fouille programmée, RAP03512, Service Régional de l'Archéologie de Bretagne. Retrieved from http://bibliotheque.numerique.srabretagne.fr/files/original/d517bc059b5dd79cc80d0997777a3f0b.pdfFerko, A., Martinka, J., Sormann, M., Karner, K., Zara, J., & Krivograd, S. (2004). Virtual Heart of Central Europe. In Proceedings of 9th symposion on Info & Communication Technology in Urban and Spatial planning and Impacts of ICT on Physical Space (pp. 193-200). Wien, Austria.Fisher, M., & Hanrahan, P. (2010). Context-based search for 3D models. ACM transactions on Graphics (TOG), 29(6), 182. https://doi.org/10.1145/1882261.1866204Freudenberg, B., Masuch, M., Rober, N., & Strothotte, T. (2001). The Computer-Visualistik-Raum: veritable and inexpensive presentation of a virtual reconstruction. In Proceedings of the 2001 conference on Virtual Reality, Archeology, and Cultural Heritage (pp. 97-102) Glyfada, Greece. https://doi.org/10.1145/585009.585010Gaugne, R., Gouranton, V., Dumont, G., Chauffaut, A., & Arnaldi, B. (2014). Immersia, an open immersive infrastructure: doing archaeology in virtual reality. Archeologia e Calcolatori, suppl. 5, 1-10.Guillas, N. (2013). Des drones qui fouillent le sol. Sciences Ouest, 312.Haller, M. (2004). Photorealism or/and non-photorealism in augmented reality. In Proceedings of the 2004 ACM SIGGRAPH International Conference on Virtual Reality Continuum and its Applications in Industry (pp. 189-196). Singapore. https://doi.org/10.1145/1044588.1044627Hoda, R., Salleh, N., & Grundy, J. (2018). The rise and evolution of agile software development. IEEE Software, 35(5), 58-63. https://doi.org/10.1109/ms.2018.290111318Inrap (2018). Archéologie de la ville de Rennes, carte des sites de fouilles. Retrieved January 3, 2020, from https://multimedia.inrap.fr/atlas/Rennes/archeo-RennesInrap (2019). Rennes. Retrieved January 8, 2020, from https://www.inrap.fr/communes/rennesJahn, I., Kersten, T., & Kinzel, R. (2004). Erfahrungen mit einem 3d-laserscanning-system bei der erfassung einer industrieanlage und des lubecker holstentores. Photogrammetrie-Laserscanning-Optische 3D-Messtechnik (pp. 222- 229).Koutonen, J., & Leppänen, M. (2013). How are agile methods and practices deployed in video game development? A survey into Finnish game studios. In International Conference on Agile Software Development (pp. 135-149). Berlin, Germany. https://doi.org/10.1007/978-3-642-38314-4_10Le Cloirec, G. (2019). Du crayon au SIG: 30 ans d'archeologie urbaine à Rennes. Retrieved August 5, 2019, from https://musee-devoile.blog/2019/08/05/du-crayon-au-sig-30-ans-darcheologie-urbaine-a-rennesLópez, L., Arroyo, G., & Martín, D. (2012). Computer tool for automatically generated 3D illustration in real time from archeological scanned pieces. Virtual Archaeology Review, 3(6), 73-77. https://doi.org/10.4995/var.2012.4447Marek, M., & Hipp, K. (2011). Cracovia 3D: rekonstrukcje cyfrowe historycznej zabudowy Krakowa. Kraków: Kolegium Wydawnicze Muzeum Historycznego Miasta Krakowa.Ouest-France (2013). L'histoire des Portes mordelaises se visite. Retrieved April 25, 2013 from https://www.ouestfrance.fr/bretagne/rennes-35000/lhistoire-des-portes-mordelaises-se-visite-1078116Mora, P., & Vivier, A. (2007). Le levé tachéométrique et son utilisation dans la numérisation de sites archéologiques. In Virtual Retrospect, 3 (pp. 203-206). Pessac, France.Mortara, M., & Catalano, C. (2018). 3D Virtual environments as effective learning contexts for cultural heritage. Italian Journal of Educational Technology, 26(2), 5-21. https://doi.org/10.17471/2499-4324/1026Ouest-France (2019). 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The PanCareSurFup consortium:research and guidelines to improve lives for survivors of childhood cancer

Background: Second malignant neoplasms and cardiotoxicity are among the most serious and frequent adverse health outcomes experienced by childhood and adolescent cancer survivors (CCSs) and contribute significantly to their increased risk of premature mortality. Owing to differences in health-care systems, language and culture across the continent, Europe has had limited success in establishing multi-country collaborations needed to assemble the numbers of survivors required to clarify the health issues arising after successful cancer treatment. PanCareSurFup (PCSF) is the first pan-European project to evaluate some of the serious long-term health risks faced by survivors. This article sets out the overall rationale, methods and preliminary results of PCSF. Methods: The PCSF consortium pooled data from 13 cancer registries and hospitals in 12 European countries to evaluate subsequent primary malignancies, cardiac disease and late mortality in survivors diagnosed between ages 0 and 20 years. In addition, PCSF integrated radiation dosimetry to sites of second malignancies and to the heart, developed evidence-based guidelines for long-term care and for transition services, and disseminated results to survivors and the public. Results: We identified 115,596 individuals diagnosed with cancer, of whom 83,333 were 5-year survivors and diagnosed from 1940 to 2011. This single data set forms the basis for cohort analyses of subsequent malignancies, cardiac disease and late mortality and case–control studies of subsequent malignancies and cardiac disease in 5-year survivors. Conclusions: PCSF delivered specific estimates of risk and comprehensive guidelines to help survivors and care-givers. The expected benefit is to provide every European CCS with improved access to care and better long-term health

The PanCareSurFup cohort of 83,333 five-year survivors of childhood cancer: a cohort from 12 European countries

Childhood cancer survivors face risks from a variety of late effects, including cardiac events, second cancers, and late mortality. The aim of the pan-European PanCare Childhood and Adolescent Cancer Survivor Care and Follow-Up Studies (PanCareSurFup) Consortium was to collect data on incidence and risk factors for these late effects among childhood cancer survivors in Europe. This paper describes the methodology of the data collection for the overall PanCareSurFup cohort and the outcome-related cohorts. In PanCareSurFup 13 data providers from 12 countries delivered data to the data centre in Mainz. Data providers used a single variable list that covered all three outcomes. After validity and plausibility checks data was provided to the outcome-specific working groups. In total, we collected data on 115,596 patients diagnosed with cancer from 1940 to 2011, of whom 83,333 had survived 5 years or more. Due to the eligibility criteria and other requirements different numbers of survivors were eligible for the analysis of each of the outcomes. Thus, 1014 patients with at least one cardiac event were identified from a cohort of 39,152 5-year survivors; for second cancers 3995 survivors developed at least one second cancer from a cohort of 71,494 individuals, and from the late mortality cohort of 79,441 who had survived at least 5 years, 9247 died subsequently. Through the close cooperation of many European countries and the establishment of one central data collection and harmonising centre, the project succeeded in generating the largest cohort of children with cancer to date

Les métadonnées à la BnF

Le propos porte sur les métadonnées archivistiques et notamment le spectre des données à la BnF : outre les données qui font partie des collections conservées, la Bnf utilise des données bibliographiques, des données d’autorité ( RAMEAU par exemple ) et des données numériques, issues de documents numérisés ou nés numériques. Toutes ces données sont ouvertes et reposent sur des modèles de description interopérables

L' insuline inhalée

POITIERS-BU Médecine pharmacie (861942103) / SudocSudocFranceF

Classification automatique de défauts sur des images de tunnels par forêts d'arbres aléatoires

Format électronique, article courtInternational audienc

#2587 Survival and access to renal transplantation of patients with type 1 diabetes: a study from the REIN registry

International audienceBackground and Aims One of the most severe complication of type 1 diabetes (D1) is renal injury which can lead to end stage renal disease. Even though improvement have been made to slow the progression of the renal disease, some of D1 patients still reach dialysis. Those patients seem to have more comorbidities and poor prognosis compare to patients without diabetes (D0) starting dialysis or patients with type 2 (D2) diabetes. Method The French Renal Epidemiology and Information Network (REIN) registry collects information on all patients starting dialysis in France. We used this cohort to explore survival and access to renal transplantation of D1 on dialysis patients compare to D0 and D2 patients, using Cox proportional hazard models and graphical representation of the variables to explore the pathway from type 1 diabetes to the outcomes of interest. We performed sensitivity analysis on the imputed base obtain by MICE (in order to reduce the influence of missing data) to compare HR. Results From January 1, 2010 to December 31,2016, 1596 D1 patients were compared to 39540 D0 patients and 28170 D2 patients. Excess in all-cause mortality rate were 1.26 [1.14-1.40] (p < 0.001) for D1 versus D0 and rises to 1.45 [1.32-1.59] (p < 0.001) when considering diabetes-related comorbidities on the pathway from diabetes to death. D1 had a poorer access to kidney transplantation (0.74 [0.66-0.82] p < 0.001) adjusting for non-diabetes-related comorbidities. Using the survival model to compare D1 and D2 on the imputed bases, we obtained an HR: 1.11; 95% CI: 1.01-1.21 p = 0.027, in favor of a worse survival of D1 patients in dialysis compare to D2 patients Conclusion These results confirm that D1 patients starting dialysis are severely ill and particular care need to be given to detect and so reduce diabetes-related comorbidities and increase access to kidney transplantation

L'instabilité sociale affecte le comportement ainsi que certaines capacités d'apprentissage des poulets

National audienc

Deleterious effect of social instability on meat-type chicken learning abilities and behaviour

International audienc