Adriano Camps, J. F. Muñoz-Martín, J. A. Ruiz-de-Azua, L. Fernández, A. Pérez-Portero, David Llavería, C. Herbert, M. Pablos, A. Golkar, A. Gutierrez, Carlos Antonio, J. Bandeiras, Jorge Andrade, D. Cordeiro, Simone Briatore, Nicola Garzaniti, F. Nichele, R. Mozzillo, A. Piumatti, Margherita Cardi, Marco Esposito, C. van Dijk, N. Vercruyssen, J. Barbosa, John R. Hefele, R. Koeleman, B. C. Domínguez, M. Pastena, G. Filippazzo, A. Reagan
{"title":"FSSCat:联邦卫星系统3Cat任务:展示立方体卫星监测水循环基本气候变量的能力[仪器和任务]","authors":"Adriano Camps, J. F. Muñoz-Martín, J. A. Ruiz-de-Azua, L. Fernández, A. Pérez-Portero, David Llavería, C. Herbert, M. Pablos, A. Golkar, A. Gutierrez, Carlos Antonio, J. Bandeiras, Jorge Andrade, D. Cordeiro, Simone Briatore, Nicola Garzaniti, F. Nichele, R. Mozzillo, A. Piumatti, Margherita Cardi, Marco Esposito, C. van Dijk, N. Vercruyssen, J. Barbosa, John R. Hefele, R. Koeleman, B. C. Domínguez, M. Pastena, G. Filippazzo, A. Reagan","doi":"10.1109/MGRS.2022.3219778","DOIUrl":null,"url":null,"abstract":"The Federated Satellite Systems/3Cat-5 (FSSCat) mission was the winner of the European Space Agency (ESA) Sentinel Small Satellite (S3) Challenge and overall winner of the 2017 Copernicus Masters competition. It consisted of two six-unit CubeSats. The Earth observation payloads were 1) the Flexible Microwave Payload 2 (FMPL-2) onboard 3Cat-5/A, an L-band microwave radiometer and GNSS reflectometer (GNSS-R) implemented using a software-defined radio (SDR), and 2) the HyperScout-2 onboard 3Cat-5/B, a hyperspectral camera, with the first experiment using artificial intelligence to discard cloudy images. FSSCat was launched on 3 September 2020 and injected into a 535-km synchronous orbit. 3Cat-5/A was operated for three months until the payload was probably damaged by a solar flare and coronal mass ejection. During this time, all scientific requirements were met, including the generation of coarse-resolution and downscaled soil moisture (SM) maps, sea ice extent (SIE) maps, concentration and thickness maps, and even wind speed (WS) and sea surface salinity (SSS) maps, which were not originally foreseen. 3Cat-5/B was operated a few more months until the number of images acquired met the requirements. This article briefly describes the FSSCat mission and the FMPL-2 payload and summarizes the main scientific results.","PeriodicalId":48660,"journal":{"name":"IEEE Geoscience and Remote Sensing Magazine","volume":"10 1","pages":"260-269"},"PeriodicalIF":16.2000,"publicationDate":"2022-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"FSSCat: The Federated Satellite Systems 3Cat Mission: Demonstrating the capabilities of CubeSats to monitor essential climate variables of the water cycle [Instruments and Missions]\",\"authors\":\"Adriano Camps, J. F. Muñoz-Martín, J. A. Ruiz-de-Azua, L. Fernández, A. Pérez-Portero, David Llavería, C. Herbert, M. Pablos, A. Golkar, A. Gutierrez, Carlos Antonio, J. Bandeiras, Jorge Andrade, D. Cordeiro, Simone Briatore, Nicola Garzaniti, F. Nichele, R. Mozzillo, A. Piumatti, Margherita Cardi, Marco Esposito, C. van Dijk, N. Vercruyssen, J. Barbosa, John R. 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FSSCat: The Federated Satellite Systems 3Cat Mission: Demonstrating the capabilities of CubeSats to monitor essential climate variables of the water cycle [Instruments and Missions]
The Federated Satellite Systems/3Cat-5 (FSSCat) mission was the winner of the European Space Agency (ESA) Sentinel Small Satellite (S3) Challenge and overall winner of the 2017 Copernicus Masters competition. It consisted of two six-unit CubeSats. The Earth observation payloads were 1) the Flexible Microwave Payload 2 (FMPL-2) onboard 3Cat-5/A, an L-band microwave radiometer and GNSS reflectometer (GNSS-R) implemented using a software-defined radio (SDR), and 2) the HyperScout-2 onboard 3Cat-5/B, a hyperspectral camera, with the first experiment using artificial intelligence to discard cloudy images. FSSCat was launched on 3 September 2020 and injected into a 535-km synchronous orbit. 3Cat-5/A was operated for three months until the payload was probably damaged by a solar flare and coronal mass ejection. During this time, all scientific requirements were met, including the generation of coarse-resolution and downscaled soil moisture (SM) maps, sea ice extent (SIE) maps, concentration and thickness maps, and even wind speed (WS) and sea surface salinity (SSS) maps, which were not originally foreseen. 3Cat-5/B was operated a few more months until the number of images acquired met the requirements. This article briefly describes the FSSCat mission and the FMPL-2 payload and summarizes the main scientific results.
期刊介绍:
The IEEE Geoscience and Remote Sensing Magazine (GRSM) serves as an informative platform, keeping readers abreast of activities within the IEEE GRS Society, its technical committees, and chapters. In addition to updating readers on society-related news, GRSM plays a crucial role in educating and informing its audience through various channels. These include:Technical Papers,International Remote Sensing Activities,Contributions on Education Activities,Industrial and University Profiles,Conference News,Book Reviews,Calendar of Important Events.