Metrology for climate observation

The project aims to develop metrological traceability for the Essential Climate Variables (ECVs) defined by Global Climate Observing System (GCOS): water vapor in upper-air and surface atmosphere, surface and deep sea temperature and salinity, air temperature, precipitation, albedo, permafrost tempe...

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Bibliographic Details
Main Authors: A. Merlone, G. Coppa, C. Musacchio, A. Piccato, G. Lopardo, C. Garcia Izquierdo, Y. –.G. Kim, F. Sparasci, P. Thorne, J. Zhang, G. Strouse, E. Van der Ham, J. Tamba, T. Usuda, E. Ejigu, S. Bell, M. de Podesta, T. Gardiner, C. Monte, V. Ebert, P. Pavlacek, D. Groselj, M. Heinonen, M. Kalemci, G. Beges, J. Drnovsek, D. Hudoklin, J. Bojkovski, A. Castrillo, L. Lanza, A. Viola, V. Vitale, R. Emardson, R. Feistel, SANNA, FRANCESCA
Other Authors: Sanna Francesca, Y. –G. Kim, G. Bege
Format: Conference Object
Language:English
Published: 2016
Subjects:
Metrology
measurement
uncertainty
climate
Essential Climate Variables
permafrost
Online Access:http://hdl.handle.net/2318/1569553
Description
Summary:The project aims to develop metrological traceability for the Essential Climate Variables (ECVs) defined by Global Climate Observing System (GCOS): water vapor in upper-air and surface atmosphere, surface and deep sea temperature and salinity, air temperature, precipitation, albedo, permafrost temperature and soil moisture. On the basis of results and experience achieved during the running ENV07 MeteoMet Project, this new proposal extends the activities to further objectives: from sensor calibration uncertainties to measurement uncertainties, improvement of the developed devices and their use in field oriented activities, new investigations on sensors characteristics for the generation of higher quality climate data, extension of the analyzed ECVs

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