|
|
|
Registros recuperados: 23 | |
|
| |
|
| |
|
|
Kozin, Philipp; Paris, Jean-daniel; Rolin, Jean-francois; Delauney, Laurent; Carotenuto, Federico; Mazzola, Mauro; Papale, Dario; Maurissen, Diane; Haslinger, Florian; Delory, Eric; Gilbert, Olivier. |
The aim of WP1-task 1.1, is to identify and analyse emerging environmental observations technologies (sensors and platforms) that could be useful to, and benefit from, Research infrastructures (RIs) to realize and achieve their market potential. The task also aims to explore technical challenges, market barriers and ongoing initiatives related to these technologies. The deliverable D1.1 is tailored to be a source of inspiration for Small and Medium Enterprises (SMEs), while investigating new business opportunities, as well as for the EU bodies, pointing them the specific areas requiring additional attention and financing. Environmental observations performed by RIs are dedicated to answering the grand challenges (ENVRI+ Theme 4). This is a tremendous... |
Tipo: Text |
|
Ano: 2018 |
URL: https://archimer.ifremer.fr/doc/00630/74249/73879.pdf |
| |
|
|
Best, Mairi; Favali, Paolo; Beranzoli, Laura; Cannat, Mathilde; Cagatay, Namik; Jose Danobeitia, Juan; Delory, Eric; De Stigter, Henko; Ferre, Benedicte; Gillooly, Mick; Grant, Fiona; Hall, Per O. J.; Lykousis, Vasilios; Mienert, Juergen; Alberto De Miranda, Jorge Miguel; Oaie, Gheorghe; Radulescu, Vlad; Rolin, Jean-francois; Ruhl, Henry; Waldmann, Christoph. |
Tipo: Text |
|
Ano: 2014 |
URL: https://archimer.ifremer.fr/doc/00460/57138/59073.pdf |
| |
|
|
Puillat, Ingrid; Rolin, Jean-francois; Person, Roland. |
The Network of Excellence ESONET started on 1st March 2007. The kick off meeting was held in Brest on 21-22-23 March 2007. Long term monitoring of environmental processes related to ecosystem life and evolution, global changes and geohazards, is now recognized as a necessary by the scientific community. To better understand geophysical, biogeochemical, oceanographic and biological active phenomena scientists need long time series of data coming from the deep sea and the seafloor at key provinces in the world. The objective of ESONET NoE is to prepare at European level the implementation of a network of deep sea observatories around Europe. The structures of ESONET have been constructed during the first year through the main meetings (Kick off meeting... |
Tipo: Text |
|
Ano: 2008 |
URL: http://archimer.ifremer.fr/doc/00151/26220/24291.pdf |
| |
|
|
Puillat, Ingrid; Lietard, Cecile; Rolin, Jean-francois. |
The Network of Excellence ESONET will enter its final year. During the first year, the main ESONET working groups were formed and the objectives of the various themes identified. Embryos of regional groups were also put in place, more or less active depending on the nodes while the main partners successfully put the project preparatory phase of large European research infrastructure EMSO-PP in place. Activities during the second year relied on that organization. The main objectives of this period were focused on: - Increasing the level of integration in the regional nodes, encouraging the participation of partners associated with the nodes in ESONET, for example by encouraging the submission of proposals for the 2nd call for demonstration missions. -... |
Tipo: Text |
|
Ano: 2010 |
URL: http://archimer.ifremer.fr/doc/00151/26222/24293.pdf |
| |
|
|
Puillat, Ingrid; Lietard, Cecile; Rolin, Jean-francois; Person, Roland. |
During the first year, the main ESONET working groups were constituted at WP level and the core groups of each ESONET node were initiated with varying progress. The related activities were starting in WPs and in some regions but not all. Consequently the main general objectives of this 2nd reported period were: - to increase the level of integration on regional nodes by encouraging the involvement of the partners associated with nodes to participate in ESONET activities, for instance by encouraging the submission of proposals for the 2nd call for demo missions. - to encourage the level of integration across ESONET nodes, for instance by preparing a more formal call for exchange of personnel. WP leaders also made efforts to increase participation in their... |
Tipo: Text |
|
Ano: 2009 |
URL: http://archimer.ifremer.fr/doc/00151/26221/24292.pdf |
| |
|
| |
|
| |
|
| |
|
|
Sarradin, Pierre-marie; Sarrazin, Jozee; Cadiou, Jean-francois; Olu, Karine; Desbruyeres, Damien; Rigaud, Vincent; Drogou, Jean-francois; Lecornu, Fabrice; Rolin, Jean-francois; Vuillemin, Renaud; Cambon-bonavita, Marie-anne; Sauter, E; Von Juterzenka, K; Boetius, A; Santos, Rs; Colaco, Ana; Pascoal, A; Oliveira, Paulo; Shillito, Bruce; Zal, F; Schultz, A; Taylor, P; Lane, D; Loke, Rob; Du Buf, H; Waldmann, C; Cormack, A; Sanfilippo, L; Masson, M. |
The general objective of EXOCET/D is to develop, implement and test specific instruments aimed at exploring, describing, quantifying and monitoring biodiversity in deep-sea fragmented habitats as well as at identifying links between community structure and environmental dynamics. Onboard experimental devices will complement the approach, enabling experiments on species physiology. The EXOCET/D working fields include: video and acoustic imagery, in situ analysis of physico-chemical factors, quantitative sampling of macroand micro-organisms, in vivo experiments, integration of multidisciplinary data, implementation on European deep-submersibles and a final phase of technical and scientific validation |
Tipo: Text |
Palavras-chave: Deep sea; Ecosystem; Imagery; In situ analysis; Faunal sampling; Submersibles; Observatory. |
Ano: 2004 |
URL: https://archimer.ifremer.fr/doc/2007/publication-3600.pdf |
| |
|
|
Rolin, Jean-francois; O'Neill, Nick; Aoustin, Yannick; Begot, Emilie. |
Establishment of technology clusters: A number of technology clusters (e.g. ICT, sensors) that include industry & academic partners. The development of clusters of technology companies stimulates innovation. SLR will identify technology companies in different sectors, for example sensor developers, data transmission technologists and biofouling specialists and combine them in a cluster that encourages interaction to address specific technical problems encountered in the deployment of seafloor observatories. |
Tipo: Text |
|
Ano: 2014 |
URL: http://archimer.ifremer.fr/doc/00241/35175/33676.pdf |
| |
|
|
Person, Roland; Aoustin, Yannick; Blandin, Jerome; Marvaldi, Jean; Rolin, Jean-francois. |
For a long time, deep-sea investigation relied on autonomous bottom landers. Landers call vary in size from 200 kg weight to more than 2 t for the heaviest scientific landers and are used during exploration cruises oil medium periods, from one week to some months. Today, new requirements appear. Scientists want to understand in detail the phenomena outlined during exploration cruises, to elaborate a model for future forecasting. For this, it is necessary to deploy instrumentation at a precise location often for a long period. A new mode of ocean science investigation Using long-term seafloor observatories to obtain four dimensional data sets has appeared. Although this concept has been proposed for many years, the high level of investment required limits... |
Tipo: Text |
Palavras-chave: Environment; Seismology; Global change; Multidisciplinary long term observatories; Landers. |
Ano: 2006 |
URL: http://archimer.ifremer.fr/doc/2006/publication-3604.pdf |
| |
|
|
Repecaud, Michel; Degres, Yves; Bernard, Nathalie; Allenou, Jean-pierre; Aoustin, Yannick; Arrondeau, Jean-pierre; Bouget, Jean-francois; Bucas, Karenn; Daniel, Anne; Guillaud, Jean-francois; Hamon, Michel; Jegou, Paul; Laes, Agathe; Le Roux, Dominique; Le Piver, David; Quemener, Loic; Rolin, Jean-francois; Rudelle, Tiphaine; Legrand, Jacques; Vuillemin, Renaud. |
The automated monitoring of physico-chemical parameters in the coastal zone has been using large buoys and fixed infrastructures. A better understanding of many estuaries is needed in order to fulfil the agenda and requirements of the European Water Framework Directive. In order to address the fluxes of nutrients as well as algal blooms and low oxygen events, the "TROPHIMATIQUE" project has developed a new generation of instruments able to be deployed in sea waters. The smaller size of the new instruments is intended to facilitate the maintenance. A new multi-parameter probe has been developed. The measurements of all nutrients are performed thanks to the CHEMINI flow injection analysers for nitrate, ammonia, silicate and phosphate. A sampler using similar... |
Tipo: Text |
|
Ano: 2009 |
URL: http://archimer.ifremer.fr/doc/00107/21807/20276.pdf |
| |
|
|
Vitale, Vito; Mazzola, Mauro; Zardi, Federico; Rolin, Jean-francois; Delauney, Laurent. |
The present report aims to address the topic of robustness of instruments and equipment to extreme environmental conditions issue. We are interest to define standard test methods suitable to the specific activities of ENVRI RIs. In this sense, attention need to be devoted not only to commercial instruments, but also to technical solutions often adopted to adapt commercial and/or custom instruments to the extreme environmental conditions in which they will be deployed and will operate. In this report, for our scopes, the concept of extreme environment/conditions is always intended in a very broad sense. First two chapters are mainly devoted to provide a brief but exhaustive introduction about the concept of standards and actual landscape of international as... |
Tipo: Text |
|
Ano: 2018 |
URL: https://archimer.ifremer.fr/doc/00630/74253/73884.pdf |
| |
|
|
Rolin, Jean-francois. |
Evaluate the technological maturity of sensor systems. Associated Task 3.1. Engineering specifications and technological maturity; Leader: IFREMER; Duration: M6-M12 The underwater sensing objectives refined by WP 1 will determine the required performance in precision, deployment duration and pressure of the new sensors and general specifications will be issued. The Technology Readiness Level (TRL) will be evaluated for each of the NeXOS sensor systems, leading to basic engineering specifications so that performance can be demonstrated within the duration of the project. The TRL study will use remote interviews and meetings among the NeXOS consortium (including referenced providers) and related projects (EuroARGO, EMSO/ESONET, JERICO, GROOM, etc). It will... |
Tipo: Text |
|
Ano: 2014 |
URL: http://archimer.ifremer.fr/doc/00240/35167/33663.pdf |
| |
|
|
Puillat, Ingrid; Lanteri, Nadine; Drogou, Jean-francois; Blandin, Jerome; Geli, Louis; Sarrazin, Jozee; Sarradin, Pierre-marie; Auffret, Yves; Rolin, Jean-francois; Leon, Pierre. |
Tipo: Text |
|
Ano: 2012 |
URL: http://archimer.ifremer.fr/doc/00079/19036/16619.pdf |
| |
|
| |
|
|
Ageron, M; Aguilar, J; Albert, A; Ameli, F; Anghinolfi, M; Anton, G; Anvar, S; Ardellier Desages, F; Aslanides, E; Aubert, J; Auer, R; Barbarito, E; Basa, S; Battaglieri, M; Bazzotti, M; Becherini, Y; Bethoux, N; Beltramelli, J; Bertin, V; Bigi, A; Billault, M; Blaes, R; De Botton, N; Bouwhuis, M; Bruijn, R; Brunner, J; Burgio, G; Busto, J; Cafagna, F; Caillat, L; Calzas, A; Capone, A; Caponetto, L; Carmona, E; Carr, J; Castel, D; Castorina, E; Cavasinni, V; Ceechini, S; Ceres, A; Charvis, P; Chauchot, Pierre; Chiarusi, T; Circella, M; Coail, Jean-yves; Colnard, C; Compere, Chantal; Coniglione, R; Cottini, N; Coyle, P; Cuneo, S; Cussatlegras, A; Damy, Gilbert; Van Dantzig, R; Debonis, G; De Marzo, C; De Vita, R; Dekeyser, I; Delagnes, E; Denans, D; Deschamps, Anne; Dessa, J; Destelle, J; Dinkespieler, B; Distefano, C; Donzaud, C; Drogou, Jean-francois; Druillole, F; Durand, D; Ernenwein, J; Escoffier, S; Falchini, E; Favard, S; Fehr, F; Feinstein, F; Florello, C; Flaminio, V; Fratini, K; Fuda, J; Galeotti, S; Gallone, J; Giacomelli, G; Girard, N; Gojak, C; Goret, P; Graf, K; Guilloux, F; Hallewell, G; Harakeh, M; Hartmann, B; Heijboer, A; Heine, E; Hello, Y; Hernandez Rey, J; Hossl, J; Hoffman, C; Hogenbirk, J; Hubbard, J; Jaquet, M; Jaspers, M; De Jong, M; Jouvenot, F; Kalantar Nayestanaki, N; Kappes, A; Karg, T; Katz, U; Keller, P; Kneib, J; Kok, E; Kok, H; Kooijman, P; Kopper, C; Kouchner, A; Kretschmer, W; Kruijer, A; Kuch, S; Lagier, P; Lahmann, R; Lamanna, G; Lamare, P; Lambard, G; Languillat, J; Laschinsky, H; Lavalle, J; Le Guen, Yvon; Le Provost, H; Van Suu, A; Lefevre, D; Legou, T; Lelaizant, G; Lim, G; Lo Presti, D; Loaec, Gerard; Loehner, H; Loucatos, S; Louis, F; Lucarelli, F; Lyashuk, V; Mangano, S; Marcelin, M; Margiotta, A; Masullo, R; Mazeas, Florence; Mazure, A; Megna, R; Melissas, M; Migneco, E; Mongelli, M; Montaruli, T; Morganti, M; Moscoso, L; Motz, H; Musumeci, M; Naumann, C; Naumann Godo, M; Niess, V; Noble, A; Olivetto, C; Ostasch, R; Palanque Delabrouille, N; Payre, P; Peek, H; Perez, Amparo; Petta, C; Piattelli, P; Pillet, R; Pineau, J; Poinsignon, J; Popa, V; Pradier, T; Racca, C; Randazzo, N; Van Randwijk, J; Real, D; Regnier, M; Van Rens, B; Rethore, F; Rewiersma, P; Riccobene, G; Rigaud, Vincent; Ripani, M; Roca, V; Roda, C; Rolin, Jean-francois; Rostovtsev, A; Roux, Jean; Ruppi, M; Russo, G; Rusydi, G; Salesa, F; Salomon, K; Sapienza, P; Schmitt, F; Schuller, J; Shanidze, R; Sokalski, I; Spona, T; Spurio, M; Van Der Steenhoven, G; Stolarczyk, T; Streeb, K; Sulak, L; Taiuti, M; Tamburini, C; Tao, C; Tasca, L; Terreni, G; Urbano, F; Valdy, Pierre; Valente, V; Vallage, B; Vaudaine, G; Venekamp, G; Verlaat, B; Vernin, P; Van Wijk, R; Wijnker, G; Wobbe, G; De Wolf, E; Yao, A; Zaborov, D; Zaccone, H; Zornoza, J; Zuniga, J. |
full-scale mechanical prototype line was deployed to a depth of 2500 m to test the leak tightness of the electronics containers and the pressure-resistant properties of an electromechanical cable under evaluation for use in the ANTARES deep-sea neutrino telescope. During a month-long immersion study, line parameter data were taken using miniature autonomous data loggers and shore-based optical time domain reflectometry. Details of the mechanical prototype line, the electromechanical cable and data acquisition are presented. Data taken during the immersion study revealed deficiencies in the pressure resistance of the electromechanical cable terminations at the entry points to the electronics containers. The improvements to the termination, which have been... |
Tipo: Text |
Palavras-chave: Sea deployment; Electromechanical cable; Optical time domain reflectometry; Leak detection; Underwater neutrino telescope; ANTARES. |
Ano: 2007 |
URL: http://archimer.ifremer.fr/doc/2007/publication-3519.pdf |
| |
|
|
Rolin, Jean-francois; Loubrieu, Thomas; Delauney, Laurent; Carotenuto, Federico; Dhaussy, Philippe; Obeid, Fadi; Delory, Eric. |
Small, generally low-cost sensors, that are deployed in unsupervised networks (or remote locations such as the ocean) are becoming more and more important across RIs and across domain. Distributed infrastructures require efficient data transmission through a more strict effort on standards for sensor registration, sensor web enablement, sensor-embedded treatment capacities. Network-enabled sensors offer a strong potential. This deliverable will present ongoing initiatives and proves the maturity and security of the smart sensor techniques applied at large scale. |
Tipo: Text |
|
Ano: 2019 |
URL: https://archimer.ifremer.fr/doc/00630/74251/73881.pdf |
| |
Registros recuperados: 23 | |
|
|
|