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Near real-time agriculture monitoring at national scale at parcel resolution: Performance assessment of the Sen2-Agri automated system in various cropping systems around the world

Pierre DefournyEarth and Life Institute, Université catholique de Louvain, 2 Croix du Sud bte L7.05.16, 1348 Louvain-la-Neuve, BelgiumSophie BontempsEarth and Life Institute, Université catholique de Louvain, 2 Croix du Sud bte L7.05.16, 1348 Louvain-la-Neuve, BelgiumNicolas BellemansEarth and Life Institute, Université catholique de Louvain, 2 Croix du Sud bte L7.05.16, 1348 Louvain-la-Neuve, BelgiumCosmin CaraCS Romania S.A., 29 Strada Pacii, 200692, Craiova, RomaniaGérard DedieuCentre d'Etudes Spatiales de la BIOsphère CESBIO, Université de Toulouse, CNES/CNRS/IRD/UPS, 18 Avenue Edouard Belin, 31401 Toulouse, FranceEric GuzzonatoCS Systèmes d'Information, 5 rue Brindejonc des Moulinais, 31506 Toulouse, FranceOlivier HagolleCentre d'Etudes Spatiales de la BIOsphère CESBIO, Université de Toulouse, CNES/CNRS/IRD/UPS, 18 Avenue Edouard Belin, 31401 Toulouse, FranceJordi IngladaCentre d'Etudes Spatiales de la BIOsphère CESBIO, Université de Toulouse, CNES/CNRS/IRD/UPS, 18 Avenue Edouard Belin, 31401 Toulouse, FranceLaurentiu NicolaCS Romania S.A., 29 Strada Pacii, 200692, Craiova, RomaniaThierry RabauteCS Systèmes d'Information, 5 rue Brindejonc des Moulinais, 31506 Toulouse, FranceMickaël SavinaudCS Systèmes d'Information, 5 rue Brindejonc des Moulinais, 31506 Toulouse, FranceCosmin UdroiuCS Romania S.A., 29 Strada Pacii, 200692, Craiova, RomaniaSilvia ValeroCentre d'Etudes Spatiales de la BIOsphère CESBIO, Université de Toulouse, CNES/CNRS/IRD/UPS, 18 Avenue Edouard Belin, 31401 Toulouse, FranceAgnès BéguéCIRAD-UMR TETIS, Maison de la télédétection, 500 rue J.-F. Breton, 34093 Montpellier, FranceJean-François DejouxCentre d'Etudes Spatiales de la BIOsphère CESBIO, Université de Toulouse, CNES/CNRS/IRD/UPS, 18 Avenue Edouard Belin, 31401 Toulouse, FranceAbderrazak El HartiFaculty of Sciences and Techniques, Sultan Moulay Slimane University, POB 523, Béni Mellal, MoroccoJamal EzzaharLaboratoire Mixte International TREMA, Centre Geber, Faculté des Sciences de Semlalia, 40000 Marrakech, MoroccoNataliia KussulSpace Research Institute of National Academy of Sciences of Ukraine and State Space Agency of Ukraine, 40 prosp. Glushkov, build.4/1, 03680 Kyiv, UkraineKamal LabbassiUniversité Chouaib Doukkali, MoroccoValentine LebourgeoisUniversité de MontpellierZhang MiaoInstitute of Remote Sensing and Digital Earth, Chinese Academy of Sciences, Olympic Village Science Park, West Beichen Road, Chaoyang, Beijing 100101, ChinaTerry NewbyAgricultural Research Council (South Africa), Private Bag X79, 0001 Pretoria, South AfricaAdolph NyamugamaAgricultural Research Council (South Africa), Private Bag X79, 0001 Pretoria, South AfricaNorakhan SalhMinistry of Agriculture, SudanАндрій ШелестовSpace Research Institute of National Academy of Sciences of Ukraine and State Space Agency of Ukraine, 40 prosp. Glushkov, build.4/1, 03680 Kyiv, UkraineVincent SimonneauxCentre d'Etudes Spatiales de la BIOsphre CESBIO, Universit de Toulouse, CNES/CNRS/IRD/UPS, 18 Avenue Edouard Belin, 31401 Toulouse, FrancePierre TraoréInternational Crops Research Institute for the Semi-Arid Tropics (ICRISAT), Samanko Stn., POB 320, Bamako, MaliS. TraoréBenjamin KoetzESA-ESRIN, European Space Agency, Via Galileo Galilei, Casella Postale 64, 00044 Frascati, Rome, Italy
2018en
ABI

Annotatsiya

The convergence of new EO data flows, new methodological developments and cloud computing infrastructure calls for a paradigm shift in operational agriculture monitoring. The Copernicus Sentinel-2 mission providing a systematic 5-day revisit cycle and free data access opens a completely new avenue for near real-time crop specific monitoring at parcel level over large countries. This research investigated the feasibility to propose methods and to develop an open source system able to generate, at national scale, cloud-free composites, dynamic cropland masks, crop type maps and vegetation status indicators suitable for most cropping systems. The so-called Sen2-Agri system automatically ingests and processes Sentinel-2 and Landsat 8 time series in a seamless way to derive these four products, thanks to streamlined processes based on machine learning algorithms and quality controlled in situ data. It embeds a set of key principles proposed to address the new challenges arising from countrywide 10 m resolution agriculture monitoring. The full-scale demonstration of this system for three entire countries (Ukraine, Mali, South Africa) and five local sites distributed across the world was a major challenge met successfully despite the availability of only one Sentinel-2 satellite in orbit. In situ data were collected for calibration and validation in a timely manner allowing the production of the four Sen2-Agri products over all the demonstration sites. The independent validation of the monthly cropland masks provided for most sites overall accuracy values higher than 90%, and already higher than 80% as early as the mid-season. The crop type maps depicting the 5 main crops for the considered study sites were also successfully validated: overall accuracy values higher than 80% and F1 Scores of the different crop type classes were most often higher than 0.65. These respective results pave the way for countrywide crop specific monitoring system at parcel level bridging the gap between parcel visits and national scale assessment. These full-scale demonstration results clearly highlight the operational agriculture monitoring capacity of the Sen2-Agri system to exploit in near real-time the observation acquired by the Sentinel-2 mission over very large areas. Scaling this open source system on cloud computing infrastructure becomes instrumental to support market transparency while building national monitoring capacity as requested by the AMIS and GEOGLAM G-20 initiatives.

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