Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment

A high bitrate optical downlink was performed by the stratospheric optical payload experiment (STROPEX), a part of the EU CAPANINA project. The STROPEX objectives were to design and build the necessary hardware to demonstrate an optical backhaul downlink from a stratospheric platform to the ground a...

Full description

Bibliographic Details
Main Authors: Horwath, Joachim, Wilkerson, Brandon, Knapek, Markus, Epple, Bernhard, Brechtelsbauer, Martin, Henniger, Hennes
Format: Conference Object
Language:unknown
Published: 2006
Subjects:
Digitale Netze
Kiruna
Online Access:https://elib.dlr.de/49633/
id ftdlr:oai:elib.dlr.de:49633
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:49633 2024-05-19T07:43:29+00:00 Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment Horwath, Joachim Wilkerson, Brandon Knapek, Markus Epple, Bernhard Brechtelsbauer, Martin Henniger, Hennes 2006-05 https://elib.dlr.de/49633/ unknown Horwath, Joachim und Wilkerson, Brandon und Knapek, Markus und Epple, Bernhard und Brechtelsbauer, Martin und Henniger, Hennes (2006) Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment. In: Proceedings of the 3rd Advanced Satellite Mobile Systems Conference (ASMS). Advanced Satellite Mobile Systems Conference, 2006-05-29 - 2006-05-31, Herrsching, Germany. Digitale Netze Konferenzbeitrag PeerReviewed 2006 ftdlr 2024-04-25T00:10:51Z A high bitrate optical downlink was performed by the stratospheric optical payload experiment (STROPEX), a part of the EU CAPANINA project. The STROPEX objectives were to design and build the necessary hardware to demonstrate an optical backhaul downlink from a stratospheric platform to the ground and to carry out channel measurements on the link. A successful measurement campaign at ESRANGE, near Kiruna (Sweden), achieved all these objectives. The transportable optical ground station received an almost error free 1.25 Gbit/s data signal from the payload over a distance of 64.1 km with a bit error rate of better than 10-9. This paper gives an overview of the stratospheric optical payload experiment including the airborne free-space experimental laser terminal (FELT) and the transportable optical ground station (TOGS). Additionally, the successful measurement campaign is described and the operation of the experiment is discussed. Finally, selected measurements are presented highlighting significant data transmission results, pointing and tracking accuracy, and thermal subsystem effectiveness. Conference Object Kiruna German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Digitale Netze
spellingShingle Digitale Netze
Horwath, Joachim
Wilkerson, Brandon
Knapek, Markus
Epple, Bernhard
Brechtelsbauer, Martin
Henniger, Hennes
Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment
topic_facet Digitale Netze
description A high bitrate optical downlink was performed by the stratospheric optical payload experiment (STROPEX), a part of the EU CAPANINA project. The STROPEX objectives were to design and build the necessary hardware to demonstrate an optical backhaul downlink from a stratospheric platform to the ground and to carry out channel measurements on the link. A successful measurement campaign at ESRANGE, near Kiruna (Sweden), achieved all these objectives. The transportable optical ground station received an almost error free 1.25 Gbit/s data signal from the payload over a distance of 64.1 km with a bit error rate of better than 10-9. This paper gives an overview of the stratospheric optical payload experiment including the airborne free-space experimental laser terminal (FELT) and the transportable optical ground station (TOGS). Additionally, the successful measurement campaign is described and the operation of the experiment is discussed. Finally, selected measurements are presented highlighting significant data transmission results, pointing and tracking accuracy, and thermal subsystem effectiveness.
format Conference Object
author Horwath, Joachim
Wilkerson, Brandon
Knapek, Markus
Epple, Bernhard
Brechtelsbauer, Martin
Henniger, Hennes
author_facet Horwath, Joachim
Wilkerson, Brandon
Knapek, Markus
Epple, Bernhard
Brechtelsbauer, Martin
Henniger, Hennes
author_sort Horwath, Joachim
title Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment
title_short Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment
title_full Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment
title_fullStr Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment
title_full_unstemmed Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment
title_sort optical communication for high altitude platforms: the stratospheric optical payload experiment
publishDate 2006
url https://elib.dlr.de/49633/
genre Kiruna
genre_facet Kiruna
op_relation Horwath, Joachim und Wilkerson, Brandon und Knapek, Markus und Epple, Bernhard und Brechtelsbauer, Martin und Henniger, Hennes (2006) Optical Communication for High Altitude Platforms: the Stratospheric Optical Payload Experiment. In: Proceedings of the 3rd Advanced Satellite Mobile Systems Conference (ASMS). Advanced Satellite Mobile Systems Conference, 2006-05-29 - 2006-05-31, Herrsching, Germany.
_version_ 1799483215765831680

Similar Items