The EnMAP imaging spectroscopy mission towards operations

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Tobias Storch
  • Hans Peter Honold
  • Sabine Chabrillat
  • Martin Habermeyer
  • Paul Tucker
  • Maximilian Brell
  • Andreas Ohndorf
  • Katrin Wirth
  • Matthias Betz
  • Michael Kuchler
  • Helmut Mühle
  • Emiliano Carmona
  • Simon Baur
  • Martin Mücke
  • Sebastian Löw
  • Daniel Schulze
  • Steffen Zimmermann
  • Christoph Lenzen
  • Sebastian Wiesner
  • Saika Aida
  • Ralph Kahle
  • Peter Willburger
  • Sebastian Hartung
  • Daniele Dietrich
  • Nicolae Plesia
  • Mirco Tegler
  • Katharina Schork
  • Kevin Alonso
  • David Marshall
  • Birgit Gerasch
  • Peter Schwind
  • Miguel Pato
  • Mathias Schneider
  • Raquel de los Reyes
  • Maximilian Langheinrich
  • Julian Wenzel
  • Martin Bachmann
  • Stefanie Holzwarth
  • Nicole Pinnel
  • Luis Guanter
  • Karl Segl
  • Daniel Scheffler
  • Saskia Foerster
  • Niklas Bohn
  • Astrid Bracher
  • Mariana A. Soppa
  • Ferran Gascon
  • Rob Green
  • Raymond Kokaly
  • Jose Moreno
  • Cindy Ong
  • Manuela Sornig
  • Ricarda Wernitz
  • Klaus Bagschik
  • Detlef Reintsema
  • Laura La Porta
  • Anke Schickling
  • Sebastian Fischer

Organisationseinheiten

Externe Organisationen

  • Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR)
  • OHB System AG
  • Helmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum (GFZ)
  • EOMAP GmbH & Co. KG
  • Universidad Politecnica de Valencia
  • Jet Propulsion Laboratory
  • Alfred-Wegener-Institut (AWI) Helmholtz-Zentrum für Polar- und Meeresforschung
  • European Space Agency (ESA)
  • Southwest Biological Science Center (SBSC)
  • Universitat de Valencia
  • Commonwealth Scientific and Industrial Research Organisation (CSIRO)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer113632
FachzeitschriftRemote sensing of environment
Jahrgang294
Frühes Online-Datum29 Mai 2023
PublikationsstatusVeröffentlicht - 15 Aug. 2023

Abstract

EnMAP (Environmental Mapping and Analysis Program) is a high-resolution imaging spectroscopy remote sensing mission that was successfully launched on April 1st, 2022. Equipped with a prism-based dual-spectrometer, EnMAP performs observations in the spectral range between 418.2nm and 2445.5nm with 224 bands and a high radiometric and spectral accuracy and stability. EnMAP products, with a ground instantaneous field-of-view of 30m×30m at a swath width of 30km, allow for the qualitative and quantitative analysis of surface variables from frequently and consistently acquired observations on a global scale. This article presents the EnMAP mission and details the activities and results of the Launch and Early Orbit and Commissioning Phases until November 1st, 2022. The mission capabilities and expected performances for the operational Routine Phase are provided for existing and future EnMAP users.

ASJC Scopus Sachgebiete

Zitieren

The EnMAP imaging spectroscopy mission towards operations. / Storch, Tobias; Honold, Hans Peter; Chabrillat, Sabine et al.
in: Remote sensing of environment, Jahrgang 294, 113632, 15.08.2023.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Storch, T, Honold, HP, Chabrillat, S, Habermeyer, M, Tucker, P, Brell, M, Ohndorf, A, Wirth, K, Betz, M, Kuchler, M, Mühle, H, Carmona, E, Baur, S, Mücke, M, Löw, S, Schulze, D, Zimmermann, S, Lenzen, C, Wiesner, S, Aida, S, Kahle, R, Willburger, P, Hartung, S, Dietrich, D, Plesia, N, Tegler, M, Schork, K, Alonso, K, Marshall, D, Gerasch, B, Schwind, P, Pato, M, Schneider, M, de los Reyes, R, Langheinrich, M, Wenzel, J, Bachmann, M, Holzwarth, S, Pinnel, N, Guanter, L, Segl, K, Scheffler, D, Foerster, S, Bohn, N, Bracher, A, Soppa, MA, Gascon, F, Green, R, Kokaly, R, Moreno, J, Ong, C, Sornig, M, Wernitz, R, Bagschik, K, Reintsema, D, La Porta, L, Schickling, A & Fischer, S 2023, 'The EnMAP imaging spectroscopy mission towards operations', Remote sensing of environment, Jg. 294, 113632. https://doi.org/10.1016/j.rse.2023.113632
Storch, T., Honold, H. P., Chabrillat, S., Habermeyer, M., Tucker, P., Brell, M., Ohndorf, A., Wirth, K., Betz, M., Kuchler, M., Mühle, H., Carmona, E., Baur, S., Mücke, M., Löw, S., Schulze, D., Zimmermann, S., Lenzen, C., Wiesner, S., ... Fischer, S. (2023). The EnMAP imaging spectroscopy mission towards operations. Remote sensing of environment, 294, Artikel 113632. https://doi.org/10.1016/j.rse.2023.113632
Storch T, Honold HP, Chabrillat S, Habermeyer M, Tucker P, Brell M et al. The EnMAP imaging spectroscopy mission towards operations. Remote sensing of environment. 2023 Aug 15;294:113632. Epub 2023 Mai 29. doi: 10.1016/j.rse.2023.113632
Storch, Tobias ; Honold, Hans Peter ; Chabrillat, Sabine et al. / The EnMAP imaging spectroscopy mission towards operations. in: Remote sensing of environment. 2023 ; Jahrgang 294.
Download
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title = "The EnMAP imaging spectroscopy mission towards operations",
abstract = "EnMAP (Environmental Mapping and Analysis Program) is a high-resolution imaging spectroscopy remote sensing mission that was successfully launched on April 1st, 2022. Equipped with a prism-based dual-spectrometer, EnMAP performs observations in the spectral range between 418.2nm and 2445.5nm with 224 bands and a high radiometric and spectral accuracy and stability. EnMAP products, with a ground instantaneous field-of-view of 30m×30m at a swath width of 30km, allow for the qualitative and quantitative analysis of surface variables from frequently and consistently acquired observations on a global scale. This article presents the EnMAP mission and details the activities and results of the Launch and Early Orbit and Commissioning Phases until November 1st, 2022. The mission capabilities and expected performances for the operational Routine Phase are provided for existing and future EnMAP users.",
keywords = "Calibrations, Data quality assessments and independent product validations, EnMAP, Image processors, Imaging spectroscopy, Satellite mission operations",
author = "Tobias Storch and Honold, {Hans Peter} and Sabine Chabrillat and Martin Habermeyer and Paul Tucker and Maximilian Brell and Andreas Ohndorf and Katrin Wirth and Matthias Betz and Michael Kuchler and Helmut M{\"u}hle and Emiliano Carmona and Simon Baur and Martin M{\"u}cke and Sebastian L{\"o}w and Daniel Schulze and Steffen Zimmermann and Christoph Lenzen and Sebastian Wiesner and Saika Aida and Ralph Kahle and Peter Willburger and Sebastian Hartung and Daniele Dietrich and Nicolae Plesia and Mirco Tegler and Katharina Schork and Kevin Alonso and David Marshall and Birgit Gerasch and Peter Schwind and Miguel Pato and Mathias Schneider and {de los Reyes}, Raquel and Maximilian Langheinrich and Julian Wenzel and Martin Bachmann and Stefanie Holzwarth and Nicole Pinnel and Luis Guanter and Karl Segl and Daniel Scheffler and Saskia Foerster and Niklas Bohn and Astrid Bracher and Soppa, {Mariana A.} and Ferran Gascon and Rob Green and Raymond Kokaly and Jose Moreno and Cindy Ong and Manuela Sornig and Ricarda Wernitz and Klaus Bagschik and Detlef Reintsema and {La Porta}, Laura and Anke Schickling and Sebastian Fischer",
note = "Funding Information: This research was supported by the DLR Space Agency with funds of the German Federal Ministry of Economic Affairs and Climate Action on the basis of a decision by the German Bundestag (50 EE 0850, 50 EE 1923 and 50 EE 2108). We would like to thank all principal investigators of the validation sites and people involved in carrying out the in-situ validation measurements: R. Kokaly (USGS): Black Rock Playa Zero; E. Ben-Dor & D. Heller (TAU): Amiaz Plain & Makhtesh Ramon; C. Ong (CSIRO): Pinnacles; B. Brede (GFZ) & N. Origo (NPL): Barrax; T. Schmid (CIEMAT): Camarena; R. Milewski (GFZ): Berlin-Tegel; T. Hank & M. Wocher (LMU): Munich-Isar; P. Gege, I. Somlai, S. Plattner, & M. Niroumand-Jadid (DLR), M. Zeising & L. Alvarado (AWI), M. Gomes (MARE): Lake Constance; M. Brasciani & C. Giradino (CNR-IREA): Lake Trasimeno; T. Schr{\"o}der (CSIRO): Lucinda Jetty Coastal Observatory; V. Brando (CNR) & the HYPERNETS project (RBINS, TARTU, SU, CNR, NPL, GFZ, CONICET), G. Zibordi & B. Bulgarelli (AERONET-OC): Aqua Alta Oceanographic Tower. Our special thanks go to the RadCalNet teams at CNES, NPL, NASA and University of Arizona for valuable additional support, in particular to A. Meygret and M. Farges (CNES) for EnMAP-specific BRDF (Bidirectional Reflectance Distribution Function) simulations. And last but not least the authors thank the five reviewers for their valuable suggestions. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.",
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doi = "10.1016/j.rse.2023.113632",
language = "English",
volume = "294",
journal = "Remote sensing of environment",
issn = "0034-4257",
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TY - JOUR

T1 - The EnMAP imaging spectroscopy mission towards operations

AU - Storch, Tobias

AU - Honold, Hans Peter

AU - Chabrillat, Sabine

AU - Habermeyer, Martin

AU - Tucker, Paul

AU - Brell, Maximilian

AU - Ohndorf, Andreas

AU - Wirth, Katrin

AU - Betz, Matthias

AU - Kuchler, Michael

AU - Mühle, Helmut

AU - Carmona, Emiliano

AU - Baur, Simon

AU - Mücke, Martin

AU - Löw, Sebastian

AU - Schulze, Daniel

AU - Zimmermann, Steffen

AU - Lenzen, Christoph

AU - Wiesner, Sebastian

AU - Aida, Saika

AU - Kahle, Ralph

AU - Willburger, Peter

AU - Hartung, Sebastian

AU - Dietrich, Daniele

AU - Plesia, Nicolae

AU - Tegler, Mirco

AU - Schork, Katharina

AU - Alonso, Kevin

AU - Marshall, David

AU - Gerasch, Birgit

AU - Schwind, Peter

AU - Pato, Miguel

AU - Schneider, Mathias

AU - de los Reyes, Raquel

AU - Langheinrich, Maximilian

AU - Wenzel, Julian

AU - Bachmann, Martin

AU - Holzwarth, Stefanie

AU - Pinnel, Nicole

AU - Guanter, Luis

AU - Segl, Karl

AU - Scheffler, Daniel

AU - Foerster, Saskia

AU - Bohn, Niklas

AU - Bracher, Astrid

AU - Soppa, Mariana A.

AU - Gascon, Ferran

AU - Green, Rob

AU - Kokaly, Raymond

AU - Moreno, Jose

AU - Ong, Cindy

AU - Sornig, Manuela

AU - Wernitz, Ricarda

AU - Bagschik, Klaus

AU - Reintsema, Detlef

AU - La Porta, Laura

AU - Schickling, Anke

AU - Fischer, Sebastian

N1 - Funding Information: This research was supported by the DLR Space Agency with funds of the German Federal Ministry of Economic Affairs and Climate Action on the basis of a decision by the German Bundestag (50 EE 0850, 50 EE 1923 and 50 EE 2108). We would like to thank all principal investigators of the validation sites and people involved in carrying out the in-situ validation measurements: R. Kokaly (USGS): Black Rock Playa Zero; E. Ben-Dor & D. Heller (TAU): Amiaz Plain & Makhtesh Ramon; C. Ong (CSIRO): Pinnacles; B. Brede (GFZ) & N. Origo (NPL): Barrax; T. Schmid (CIEMAT): Camarena; R. Milewski (GFZ): Berlin-Tegel; T. Hank & M. Wocher (LMU): Munich-Isar; P. Gege, I. Somlai, S. Plattner, & M. Niroumand-Jadid (DLR), M. Zeising & L. Alvarado (AWI), M. Gomes (MARE): Lake Constance; M. Brasciani & C. Giradino (CNR-IREA): Lake Trasimeno; T. Schröder (CSIRO): Lucinda Jetty Coastal Observatory; V. Brando (CNR) & the HYPERNETS project (RBINS, TARTU, SU, CNR, NPL, GFZ, CONICET), G. Zibordi & B. Bulgarelli (AERONET-OC): Aqua Alta Oceanographic Tower. Our special thanks go to the RadCalNet teams at CNES, NPL, NASA and University of Arizona for valuable additional support, in particular to A. Meygret and M. Farges (CNES) for EnMAP-specific BRDF (Bidirectional Reflectance Distribution Function) simulations. And last but not least the authors thank the five reviewers for their valuable suggestions. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.

PY - 2023/8/15

Y1 - 2023/8/15

N2 - EnMAP (Environmental Mapping and Analysis Program) is a high-resolution imaging spectroscopy remote sensing mission that was successfully launched on April 1st, 2022. Equipped with a prism-based dual-spectrometer, EnMAP performs observations in the spectral range between 418.2nm and 2445.5nm with 224 bands and a high radiometric and spectral accuracy and stability. EnMAP products, with a ground instantaneous field-of-view of 30m×30m at a swath width of 30km, allow for the qualitative and quantitative analysis of surface variables from frequently and consistently acquired observations on a global scale. This article presents the EnMAP mission and details the activities and results of the Launch and Early Orbit and Commissioning Phases until November 1st, 2022. The mission capabilities and expected performances for the operational Routine Phase are provided for existing and future EnMAP users.

AB - EnMAP (Environmental Mapping and Analysis Program) is a high-resolution imaging spectroscopy remote sensing mission that was successfully launched on April 1st, 2022. Equipped with a prism-based dual-spectrometer, EnMAP performs observations in the spectral range between 418.2nm and 2445.5nm with 224 bands and a high radiometric and spectral accuracy and stability. EnMAP products, with a ground instantaneous field-of-view of 30m×30m at a swath width of 30km, allow for the qualitative and quantitative analysis of surface variables from frequently and consistently acquired observations on a global scale. This article presents the EnMAP mission and details the activities and results of the Launch and Early Orbit and Commissioning Phases until November 1st, 2022. The mission capabilities and expected performances for the operational Routine Phase are provided for existing and future EnMAP users.

KW - Calibrations

KW - Data quality assessments and independent product validations

KW - EnMAP

KW - Image processors

KW - Imaging spectroscopy

KW - Satellite mission operations

UR - http://www.scopus.com/inward/record.url?scp=85162808402&partnerID=8YFLogxK

U2 - 10.1016/j.rse.2023.113632

DO - 10.1016/j.rse.2023.113632

M3 - Article

AN - SCOPUS:85162808402

VL - 294

JO - Remote sensing of environment

JF - Remote sensing of environment

SN - 0034-4257

M1 - 113632

ER -