UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables

UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables

The UltraViolet and infrared Sensors at high Quantum efficiency onboard a small SATellite (UVSQ-SAT) mission aims to demonstrate pioneering technologies for broadband measurement of the Earth’s radiation budget (ERB) and solar spectral irradiance (SSI) in the Herzberg continuum (200–242 nm) using hi...

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Main Authors: Meftah, Mustapha, Damé, Luc, Keckhut, Philippe, Bekki, Slimane, Sarkissian, Alain, Hauchecorne, Alain, Bertran, Emmanuel, Carta, Jean-Paul, Rogers, David, Abbaki, Sadok, Dufour, Christophe, Gilbert, Pierre, Lapauw, Laurent, Vieau, André-Jean, Arrateig, Xavier, Muscat, Nicolas, Bove, Philippe, Sandana, Éric, Teherani, Ferechteh, Li, Tong, Pradel, Gilbert, Mahé, Michel, Mercier, Christophe, Paskeviciute, Agne, Segura, Kevin, Alba, Alicia Berciano, Aboulila, Ahmed, Chang, Loren, Chandran, Amal, Dahoo, Pierre-Richard, Bui, Alain
Other Authors: School of Electrical and Electronic Engineering
Format: Article
Language:English
Published: 2021
Subjects:
Engineering::Electrical and electronic engineering
Earth’s Radiation Budget
Solar–terrestrial Relations
Online Access:https://hdl.handle.net/10356/146243
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1462432021-02-04T01:26:46Z UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables Meftah, Mustapha Damé, Luc Keckhut, Philippe Bekki, Slimane Sarkissian, Alain Hauchecorne, Alain Bertran, Emmanuel Carta, Jean-Paul Rogers, David Abbaki, Sadok Dufour, Christophe Gilbert, Pierre Lapauw, Laurent Vieau, André-Jean Arrateig, Xavier Muscat, Nicolas Bove, Philippe Sandana, Éric Teherani, Ferechteh Li, Tong Pradel, Gilbert Mahé, Michel Mercier, Christophe Paskeviciute, Agne Segura, Kevin Alba, Alicia Berciano Aboulila, Ahmed Chang, Loren Chandran, Amal Dahoo, Pierre-Richard Bui, Alain School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Earth’s Radiation Budget Solar–terrestrial Relations The UltraViolet and infrared Sensors at high Quantum efficiency onboard a small SATellite (UVSQ-SAT) mission aims to demonstrate pioneering technologies for broadband measurement of the Earth’s radiation budget (ERB) and solar spectral irradiance (SSI) in the Herzberg continuum (200–242 nm) using high quantum efficiency ultraviolet and infrared sensors. This research and innovation mission has been initiated by the University of Versailles Saint-Quentin-en-Yvelines (UVSQ) with the support of the International Satellite Program in Research and Education (INSPIRE). The motivation of the UVSQ-SAT mission is to experiment miniaturized remote sensing sensors that could be used in the multi-point observation of Essential Climate Variables (ECV) by a small satellite constellation. UVSQ-SAT represents the first step in this ambitious satellite constellation project which is currently under development under the responsibility of the Laboratory Atmospheres, Environments, Space Observations (LATMOS), with the UVSQ-SAT CubeSat launch planned for 2020/2021. The UVSQ-SAT scientific payload consists of twelve miniaturized thermopile-based radiation sensors for monitoring incoming solar radiation and outgoing terrestrial radiation, four photodiodes that benefit from the intrinsic advantages of Ga 2 O 3 alloy-based sensors made by pulsed laser deposition for measuring solar UV spectral irradiance, and a new three-axis accelerometer/gyroscope/compass for satellite attitude estimation. We present here the scientific objectives of the UVSQ-SAT mission along the concepts and properties of the CubeSat platform and its payload. We also present the results of a numerical simulation study on the spatial reconstruction of the Earth’s radiation budget, on a geographical grid of 1 ° × 1 ° degree latitude-longitude, that could be achieved with UVSQ-SAT for different observation periods. Published version 2021-02-04T01:26:46Z 2021-02-04T01:26:46Z 2019 Journal Article Meftah, M., Damé, L., Keckhut, P., Bekki, S., Sarkissian, A., Hauchecorne, A., … Bui, A. (2019). UVSQ-SAT, a Pathfinder CubeSat Mission for Observing Essential Climate Variables. Remote Sensing, 12(1), 92-. doi:10.3390/rs12010092 2072-4292 https://hdl.handle.net/10356/146243 10.3390/rs12010092 1 12 en Remote Sensing © 2019 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open accessarticle distributed under the terms and conditions of the Creative Commons Attribution(CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Electrical and electronic engineering
Earth’s Radiation Budget
Solar–terrestrial Relations
spellingShingle Engineering::Electrical and electronic engineering
Earth’s Radiation Budget
Solar–terrestrial Relations
Meftah, Mustapha
Damé, Luc
Keckhut, Philippe
Bekki, Slimane
Sarkissian, Alain
Hauchecorne, Alain
Bertran, Emmanuel
Carta, Jean-Paul
Rogers, David
Abbaki, Sadok
Dufour, Christophe
Gilbert, Pierre
Lapauw, Laurent
Vieau, André-Jean
Arrateig, Xavier
Muscat, Nicolas
Bove, Philippe
Sandana, Éric
Teherani, Ferechteh
Li, Tong
Pradel, Gilbert
Mahé, Michel
Mercier, Christophe
Paskeviciute, Agne
Segura, Kevin
Alba, Alicia Berciano
Aboulila, Ahmed
Chang, Loren
Chandran, Amal
Dahoo, Pierre-Richard
Bui, Alain
UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables
description The UltraViolet and infrared Sensors at high Quantum efficiency onboard a small SATellite (UVSQ-SAT) mission aims to demonstrate pioneering technologies for broadband measurement of the Earth’s radiation budget (ERB) and solar spectral irradiance (SSI) in the Herzberg continuum (200–242 nm) using high quantum efficiency ultraviolet and infrared sensors. This research and innovation mission has been initiated by the University of Versailles Saint-Quentin-en-Yvelines (UVSQ) with the support of the International Satellite Program in Research and Education (INSPIRE). The motivation of the UVSQ-SAT mission is to experiment miniaturized remote sensing sensors that could be used in the multi-point observation of Essential Climate Variables (ECV) by a small satellite constellation. UVSQ-SAT represents the first step in this ambitious satellite constellation project which is currently under development under the responsibility of the Laboratory Atmospheres, Environments, Space Observations (LATMOS), with the UVSQ-SAT CubeSat launch planned for 2020/2021. The UVSQ-SAT scientific payload consists of twelve miniaturized thermopile-based radiation sensors for monitoring incoming solar radiation and outgoing terrestrial radiation, four photodiodes that benefit from the intrinsic advantages of Ga 2 O 3 alloy-based sensors made by pulsed laser deposition for measuring solar UV spectral irradiance, and a new three-axis accelerometer/gyroscope/compass for satellite attitude estimation. We present here the scientific objectives of the UVSQ-SAT mission along the concepts and properties of the CubeSat platform and its payload. We also present the results of a numerical simulation study on the spatial reconstruction of the Earth’s radiation budget, on a geographical grid of 1 ° × 1 ° degree latitude-longitude, that could be achieved with UVSQ-SAT for different observation periods.
author2 School of Electrical and Electronic Engineering
author_facet School of Electrical and Electronic Engineering
Meftah, Mustapha
Damé, Luc
Keckhut, Philippe
Bekki, Slimane
Sarkissian, Alain
Hauchecorne, Alain
Bertran, Emmanuel
Carta, Jean-Paul
Rogers, David
Abbaki, Sadok
Dufour, Christophe
Gilbert, Pierre
Lapauw, Laurent
Vieau, André-Jean
Arrateig, Xavier
Muscat, Nicolas
Bove, Philippe
Sandana, Éric
Teherani, Ferechteh
Li, Tong
Pradel, Gilbert
Mahé, Michel
Mercier, Christophe
Paskeviciute, Agne
Segura, Kevin
Alba, Alicia Berciano
Aboulila, Ahmed
Chang, Loren
Chandran, Amal
Dahoo, Pierre-Richard
Bui, Alain
format Article
author Meftah, Mustapha
Damé, Luc
Keckhut, Philippe
Bekki, Slimane
Sarkissian, Alain
Hauchecorne, Alain
Bertran, Emmanuel
Carta, Jean-Paul
Rogers, David
Abbaki, Sadok
Dufour, Christophe
Gilbert, Pierre
Lapauw, Laurent
Vieau, André-Jean
Arrateig, Xavier
Muscat, Nicolas
Bove, Philippe
Sandana, Éric
Teherani, Ferechteh
Li, Tong
Pradel, Gilbert
Mahé, Michel
Mercier, Christophe
Paskeviciute, Agne
Segura, Kevin
Alba, Alicia Berciano
Aboulila, Ahmed
Chang, Loren
Chandran, Amal
Dahoo, Pierre-Richard
Bui, Alain
author_sort Meftah, Mustapha
title UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables
title_short UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables
title_full UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables
title_fullStr UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables
title_full_unstemmed UVSQ-SAT, a pathfinder cubesat mission for observing essential climate variables
title_sort uvsq-sat, a pathfinder cubesat mission for observing essential climate variables
publishDate 2021
url https://hdl.handle.net/10356/146243
_version_ 1692012987412381696

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