The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research

The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research

<p>The CopterSonde is an unmanned aircraft system (UAS) developed in house by a team of engineers and meteorologists at the University of Oklahoma. The CopterSonde is an ambitious attempt by the Center for Autonomous Sensing and Sampling to address the challenge of filling the observational ga...

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Main Authors: A. R. Segales, B. R. Greene, T. M. Bell, W. Doyle, J. J. Martin, E. A. Pillar-Little, P. B. Chilson
Format: Article
Language:English
Published: Copernicus Publications 2020-05-01
Series:Atmospheric Measurement Techniques
Online Access:https://www.atmos-meas-tech.net/13/2833/2020/amt-13-2833-2020.pdf
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spelling doaj-6be807d0639c4173b65d81e6ab9f49082020-11-25T03:51:00ZengCopernicus PublicationsAtmospheric Measurement Techniques1867-13811867-85482020-05-01132833284810.5194/amt-13-2833-2020The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer researchA. R. Segales0A. R. Segales1A. R. Segales2B. R. Greene3B. R. Greene4B. R. Greene5T. M. Bell6T. M. Bell7W. Doyle8J. J. Martin9E. A. Pillar-Little10E. A. Pillar-Little11P. B. Chilson12P. B. Chilson13P. B. Chilson14School of Electrical and Computer Engineering, University of Oklahoma, Norman, OK, USAAdvanced Radar Research Center, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USAAdvanced Radar Research Center, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USASchool of Meteorology, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USASchool of Meteorology, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USASchool of Meteorology, University of Oklahoma, Norman, OK, USAAdvanced Radar Research Center, University of Oklahoma, Norman, OK, USACenter for Autonomous Sensing and Sampling, University of Oklahoma, Norman, OK, USASchool of Meteorology, University of Oklahoma, Norman, OK, USA<p>The CopterSonde is an unmanned aircraft system (UAS) developed in house by a team of engineers and meteorologists at the University of Oklahoma. The CopterSonde is an ambitious attempt by the Center for Autonomous Sensing and Sampling to address the challenge of filling the observational gap present in the lower atmosphere among the currently used meteorological instruments such as towers and radiosondes. The CopterSonde is a unique and highly flexible platform for in situ atmospheric boundary layer measurements with high spatial and temporal resolution, suitable for meteorological applications and research. Custom autopilot algorithms and hardware features were developed as solutions to problems identified throughout several field experiments carried out since 2017. In these field experiments, the CopterSonde has been proven capable of safely operating at wind speeds up to 22&thinsp;<span class="inline-formula">m s<sup>−1</sup></span>, flying at 3050&thinsp;<span class="inline-formula">m</span> above mean sea level, and operating in extreme temperatures: nearly <span class="inline-formula">−20</span>&thinsp;<span class="inline-formula"><sup>∘</sup>C</span> in Finland and 40&thinsp;<span class="inline-formula"><sup>∘</sup>C</span> in Oklahoma, United States. Leveraging the open-source ArduPilot autopilot code has allowed for seamless integration of custom functions and protocols for the acquisition, storage, and distribution of atmospheric data alongside the flight control data. This led to the development of features such as the “wind vane mode” algorithm, which commands the CopterSonde to always face into the wind. It also inspired the design of an asymmetric airframe for the CopterSonde, which is shown to provide more suitable locations for weather sensor placement, in addition to allowing for improvements in the overall aerodynamic characteristics of the CopterSonde. Moreover, it has also allowed the team to design and create a modular shell where the sensor package is attached and which can run independently of the CopterSonde's main body. The CopterSonde is on the trend towards becoming a smart UAS tool with a wide possibility of creating new adaptive and optimized atmospheric sampling strategies.</p>https://www.atmos-meas-tech.net/13/2833/2020/amt-13-2833-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author A. R. Segales
A. R. Segales
A. R. Segales
B. R. Greene
B. R. Greene
B. R. Greene
T. M. Bell
T. M. Bell
W. Doyle
J. J. Martin
E. A. Pillar-Little
E. A. Pillar-Little
P. B. Chilson
P. B. Chilson
P. B. Chilson
spellingShingle A. R. Segales
A. R. Segales
A. R. Segales
B. R. Greene
B. R. Greene
B. R. Greene
T. M. Bell
T. M. Bell
W. Doyle
J. J. Martin
E. A. Pillar-Little
E. A. Pillar-Little
P. B. Chilson
P. B. Chilson
P. B. Chilson
The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
Atmospheric Measurement Techniques
author_facet A. R. Segales
A. R. Segales
A. R. Segales
B. R. Greene
B. R. Greene
B. R. Greene
T. M. Bell
T. M. Bell
W. Doyle
J. J. Martin
E. A. Pillar-Little
E. A. Pillar-Little
P. B. Chilson
P. B. Chilson
P. B. Chilson
author_sort A. R. Segales
title The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
title_short The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
title_full The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
title_fullStr The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
title_full_unstemmed The CopterSonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
title_sort coptersonde: an insight into the development of a smart unmanned aircraft system for atmospheric boundary layer research
publisher Copernicus Publications
series Atmospheric Measurement Techniques
issn 1867-1381
1867-8548
publishDate 2020-05-01
description <p>The CopterSonde is an unmanned aircraft system (UAS) developed in house by a team of engineers and meteorologists at the University of Oklahoma. The CopterSonde is an ambitious attempt by the Center for Autonomous Sensing and Sampling to address the challenge of filling the observational gap present in the lower atmosphere among the currently used meteorological instruments such as towers and radiosondes. The CopterSonde is a unique and highly flexible platform for in situ atmospheric boundary layer measurements with high spatial and temporal resolution, suitable for meteorological applications and research. Custom autopilot algorithms and hardware features were developed as solutions to problems identified throughout several field experiments carried out since 2017. In these field experiments, the CopterSonde has been proven capable of safely operating at wind speeds up to 22&thinsp;<span class="inline-formula">m s<sup>−1</sup></span>, flying at 3050&thinsp;<span class="inline-formula">m</span> above mean sea level, and operating in extreme temperatures: nearly <span class="inline-formula">−20</span>&thinsp;<span class="inline-formula"><sup>∘</sup>C</span> in Finland and 40&thinsp;<span class="inline-formula"><sup>∘</sup>C</span> in Oklahoma, United States. Leveraging the open-source ArduPilot autopilot code has allowed for seamless integration of custom functions and protocols for the acquisition, storage, and distribution of atmospheric data alongside the flight control data. This led to the development of features such as the “wind vane mode” algorithm, which commands the CopterSonde to always face into the wind. It also inspired the design of an asymmetric airframe for the CopterSonde, which is shown to provide more suitable locations for weather sensor placement, in addition to allowing for improvements in the overall aerodynamic characteristics of the CopterSonde. Moreover, it has also allowed the team to design and create a modular shell where the sensor package is attached and which can run independently of the CopterSonde's main body. The CopterSonde is on the trend towards becoming a smart UAS tool with a wide possibility of creating new adaptive and optimized atmospheric sampling strategies.</p>
url https://www.atmos-meas-tech.net/13/2833/2020/amt-13-2833-2020.pdf
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