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CAMPAIGNS
Learn about the ground-based, ship-borne, balloon-borne, and airborne campaigns and small satellite field experiments that validate orbiting ESA EO satellites and support future mission development.
Campaign
1995 - 2021SnowSum
The SnowSum experiment is designed to support the development of future concepts to monitor the cryosphere.
Campaign
2018 - 2019FIRMOS
In preparation of the Earth Explorer 9 FORUM mission, a new facility named FIRMOS (Far-Infrared Radiation Mobile Observation System) has been developed for field applications from both ground-based and airborne platforms to check with real measurements the sounding capability provided by FIR observations.
Campaign
2018WindVal III
The objectives the WindVal III campaign were derived from results, experience and lessons learnt of the last airborne campaigns in 2009, 2015 and 2016.
Campaign
2018Sentinel-3 OLCI Tandem 2018
In 2018, a tandem campaign was conducted between the Sentinel-3A and 3B satellites to help test the future FLEX mission.
Campaign
2015 - 2016AROMAT-II
This campaign covers the fields of atmospheric composition: NO2, SO2, aerosols, over Romania (Bucharest and Turceni) and Germany (Berlin).
Campaign
2016EPATAN 2016
The main scientific objectives of EPATAN 2016 (Earthcare PrepAraTion cAmpaigN) were derived from the scientific objectives of EarthCARE.
Campaign
2016GWEX
The aim of this study was to perform Gravity Wave (GW) observations with the airborne IRLI GLORIA on board of HALO. In this way for a first time 3-D tomographic reconstructions of mesoscale GW events in the lower stratosphere were taken.
Campaign
2016WindVal II
The objectives for the WindVal II campaign in 2016 were derived from the results, experience and lessons learnt from these last airborne campaigns in 2009 and 2015.
Campaign
2015WindVal I
The objectives of the WindVal 1 campaign in 2015 were derived from results, experience and lessons learnt from the previous airborne campaign in 2009.
Campaign
2015AirScatterGNSS
In this project an Airborne Wind Vector Scatterometer (AWVS) system was designed and built for measurements of sea surface backscattering from an aircraft.
Campaign
2014COMEX
The COMEX campaign supports the mission definition of CarbonSat and HyspIRI by providing representative airborne remote sensing data ‐ MAMAP for CarbonSat.
Campaign
2014CHARADMexp
The ESA CHARADMExp campaign focuses on marine and marine-dust aerosol mixture characterisation.
Campaign
2014AROMAT-I
The main objective of this AROMAT-I campaign was to test newly developed airborne sensors and to evaluate their capabilities as validation tools for future air quality space borne sensors, in particular TROPOMI.
Campaign
2012C-MAPExp
The C‐MAPExp campaign was planned and executed to support the demonstration of CarbonSat capabilities.
Campaign
2011ESSenCe
The ESA Sounder Campaign 2011 (ESSenCe) conducted field measurements utilising the high-altitude research aircraft Geophysica to quantify processes that control the composition and structure of the mid to upper troposphere and lower stratosphere.
Campaign
2009 - 2010PremierEX
The campaign was based in the Arena Arctica in Kiruna (Sweden). The science campaign has addressed the science objectives and was part of the airborne campaign of the EU project RECONCILE.
Campaign
2008DESIREX 2008
DESIREX 2008 (Dual-use European Security IR Experiment 2008) was conceived as an experimental campaign in the city of Madrid (Spain).
Campaign
2007CEFLES2
The objective of the CEFLES2 campaigns was to provide key reference data and background knowledge for the preparatory phases of the Sentinel‐2 and FLEX missions.
Campaign
2005BACCHUS-DOC
The BACCHUS-DOC Radar and Optical Campaign was an area mapping project of vineyards near Frascati (Italy). ESA required high resolution geo-referenced airborne SAR data of different wavelength and polarisation (preferably polarimetric).
Campaign
2002 - 2005WALEX
The objective of the airborne campaign Water Vapour Lidar Experiment (WALEX) is to collect valuable data to provide representative lidar measurements of water vapour and aerosol properties in different climatic zones.