Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign

Julie Lundquist; Gijs Boer; Constantin Diehl; Jamey Jacob; Adam Houston; Suzanne Smith; Phillip Chilson; David Schmale III; Janet Intrieri; James Pinto; Jack Elston; David Brus; Osku Kemppinen; Alex Clark; Dale Lawrence; Sean Bailey; Michael Sama; Amy Frazier; Christopher Crick; Victoria Natalie; Elizabeth Pillar-Little; Petra Klein; Sean Waugh; Lindsay Barbieri; Stephan Kral; Anders Jensen; Cory Dixon; Steven Borenstein; Daniel Hesselius; Kathleen Human; Phillip Hall; Brian Argrow; Troy Thornberry; Ru-Shan Gao; Randy Wright; Jason Kelly

doi:10.1175/BAMS-D-19-0050.1

Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign

Julie Lundquist
, Gijs Boer
, Constantin Diehl
, Jamey Jacob
, Adam Houston
, Suzanne Smith
, Phillip Chilson
, David Schmale III
, Janet Intrieri
, James Pinto
, Jack Elston
, David Brus
, Osku Kemppinen
, Alex Clark
, Dale Lawrence
, Sean Bailey
, Michael Sama
, Amy Frazier
, Christopher Crick
, Victoria Natalie

Elizabeth Pillar-Little, Petra Klein, Sean Waugh, Lindsay Barbieri, Stephan Kral, Anders Jensen, Cory Dixon, Steven Borenstein, Daniel Hesselius, Kathleen Human, Phillip Hall, Brian Argrow, Troy Thornberry, Ru-Shan Gao, Randy Wright, Jason Kelly

National Wind Technology Center

United States Department of Commerce
University of Colorado Boulder
UAS Colorado
Oklahoma State University
University of Nebraska-Lincoln
University of Kentucky
University of Oklahoma
Virginia Tech
National Center for Atmospheric Research
Black Swift Technologies
Finnish Meteorological Institute
Kansas State University
EngeniousMicro
Arizona State University
University of Vermont
University of Bergen
Alamosa County

Research output: Contribution to journal › Article › peer-review

51 Scopus Citations

Abstract

Members of the international community developing unmanned aircraft for atmospheric research conducted a highly-successful coordinated flight week in Colorado during summer 2018 to collect measurements, develop capabilities, and enhance community in the field. Because unmanned aircraft systems (UAS) offer new perspectives on the atmosphere, their use in atmospheric science is expanding rapidly. In support of this growth, the International Society for Atmospheric Research using Remotely-piloted Aircraft (ISARRA) has been developed and have convened annual meetings and 'flight weeks'. The 2018 flight week, dubbed the Lower Atmospheric Profiling Studies at Elevation - a Remotely-piloted Aircraft Team Experiment (LAPSE-RATE), involved a one-week deployment to Colorado's San Luis Valley. Between 14-20 July 2018 over 100 students, scientists, engineers, pilots and outreach coordinators conducted an intensive field operation using unmanned aircraft and ground-based assets to develop datasets, community, and capabilities. In addition to a coordinated 'community day' which offered a chance for groups to share their aircraft and science with the San Luis Valley community, LAPSE-RATE participants conducted nearly 1300 research flights totaling over 250 flight hours. The measurements collected have been used to advance capabilities (instrumentation, platforms, sampling techniques and modeling tools), conduct a detailed system intercomparison study, develop new collaborations, and foster community support for the use of UAS in atmospheric science.

Original language	American English
Pages (from-to)	E684-E699
Journal	Bulletin of the American Meteorological Society
Volume	101
Issue number	5
DOIs	https://doi.org/10.1175/BAMS-D-19-0050.1
State	Published - 2019

NLR Publication Number

NREL/JA-5000-74200

Keywords

atmosphere
PBL
planetary boundary layer
UAS
unmanned aircraft systems
wind energy

Access to Document

10.1175/BAMS-D-19-0050.1

Cite this

Lundquist, J., Boer, G., Diehl, C., Jacob, J., Houston, A., Smith, S., Chilson, P., Schmale III, D., Intrieri, J., Pinto, J., Elston, J., Brus, D., Kemppinen, O., Clark, A., Lawrence, D., Bailey, S., Sama, M., Frazier, A., Crick, C., ... Kelly, J. (2019). Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign. Bulletin of the American Meteorological Society, 101(5), E684-E699. https://doi.org/10.1175/BAMS-D-19-0050.1

@article{016da94a338b40e7a2354c3c6798d495,

title = "Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign",

abstract = "Members of the international community developing unmanned aircraft for atmospheric research conducted a highly-successful coordinated flight week in Colorado during summer 2018 to collect measurements, develop capabilities, and enhance community in the field. Because unmanned aircraft systems (UAS) offer new perspectives on the atmosphere, their use in atmospheric science is expanding rapidly. In support of this growth, the International Society for Atmospheric Research using Remotely-piloted Aircraft (ISARRA) has been developed and have convened annual meetings and 'flight weeks'. The 2018 flight week, dubbed the Lower Atmospheric Profiling Studies at Elevation - a Remotely-piloted Aircraft Team Experiment (LAPSE-RATE), involved a one-week deployment to Colorado's San Luis Valley. Between 14-20 July 2018 over 100 students, scientists, engineers, pilots and outreach coordinators conducted an intensive field operation using unmanned aircraft and ground-based assets to develop datasets, community, and capabilities. In addition to a coordinated 'community day' which offered a chance for groups to share their aircraft and science with the San Luis Valley community, LAPSE-RATE participants conducted nearly 1300 research flights totaling over 250 flight hours. The measurements collected have been used to advance capabilities (instrumentation, platforms, sampling techniques and modeling tools), conduct a detailed system intercomparison study, develop new collaborations, and foster community support for the use of UAS in atmospheric science.",

keywords = "atmosphere, PBL, planetary boundary layer, UAS, unmanned aircraft systems, wind energy",

author = "Julie Lundquist and Gijs Boer and Constantin Diehl and Jamey Jacob and Adam Houston and Suzanne Smith and Phillip Chilson and \{Schmale III\}, David and Janet Intrieri and James Pinto and Jack Elston and David Brus and Osku Kemppinen and Alex Clark and Dale Lawrence and Sean Bailey and Michael Sama and Amy Frazier and Christopher Crick and Victoria Natalie and Elizabeth Pillar-Little and Petra Klein and Sean Waugh and Lindsay Barbieri and Stephan Kral and Anders Jensen and Cory Dixon and Steven Borenstein and Daniel Hesselius and Kathleen Human and Phillip Hall and Brian Argrow and Troy Thornberry and Ru-Shan Gao and Randy Wright and Jason Kelly",

year = "2019",

doi = "10.1175/BAMS-D-19-0050.1",

language = "American English",

volume = "101",

pages = "E684--E699",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

number = "5",

}

Lundquist, J, Boer, G, Diehl, C, Jacob, J, Houston, A, Smith, S, Chilson, P, Schmale III, D, Intrieri, J, Pinto, J, Elston, J, Brus, D, Kemppinen, O, Clark, A, Lawrence, D, Bailey, S, Sama, M, Frazier, A, Crick, C, Natalie, V, Pillar-Little, E, Klein, P, Waugh, S, Barbieri, L, Kral, S, Jensen, A, Dixon, C, Borenstein, S, Hesselius, D, Human, K, Hall, P, Argrow, B, Thornberry, T, Gao, R-S, Wright, R & Kelly, J 2019, 'Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign', Bulletin of the American Meteorological Society, vol. 101, no. 5, pp. E684-E699. https://doi.org/10.1175/BAMS-D-19-0050.1

TY - JOUR

T1 - Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign

AU - Lundquist, Julie

AU - Boer, Gijs

AU - Diehl, Constantin

AU - Jacob, Jamey

AU - Houston, Adam

AU - Smith, Suzanne

AU - Chilson, Phillip

AU - Schmale III, David

AU - Intrieri, Janet

AU - Pinto, James

AU - Elston, Jack

AU - Brus, David

AU - Kemppinen, Osku

AU - Clark, Alex

AU - Lawrence, Dale

AU - Bailey, Sean

AU - Sama, Michael

AU - Frazier, Amy

AU - Crick, Christopher

AU - Natalie, Victoria

AU - Pillar-Little, Elizabeth

AU - Klein, Petra

AU - Waugh, Sean

AU - Barbieri, Lindsay

AU - Kral, Stephan

AU - Jensen, Anders

AU - Dixon, Cory

AU - Borenstein, Steven

AU - Hesselius, Daniel

AU - Human, Kathleen

AU - Hall, Phillip

AU - Argrow, Brian

AU - Thornberry, Troy

AU - Gao, Ru-Shan

AU - Wright, Randy

AU - Kelly, Jason

PY - 2019

Y1 - 2019

N2 - Members of the international community developing unmanned aircraft for atmospheric research conducted a highly-successful coordinated flight week in Colorado during summer 2018 to collect measurements, develop capabilities, and enhance community in the field. Because unmanned aircraft systems (UAS) offer new perspectives on the atmosphere, their use in atmospheric science is expanding rapidly. In support of this growth, the International Society for Atmospheric Research using Remotely-piloted Aircraft (ISARRA) has been developed and have convened annual meetings and 'flight weeks'. The 2018 flight week, dubbed the Lower Atmospheric Profiling Studies at Elevation - a Remotely-piloted Aircraft Team Experiment (LAPSE-RATE), involved a one-week deployment to Colorado's San Luis Valley. Between 14-20 July 2018 over 100 students, scientists, engineers, pilots and outreach coordinators conducted an intensive field operation using unmanned aircraft and ground-based assets to develop datasets, community, and capabilities. In addition to a coordinated 'community day' which offered a chance for groups to share their aircraft and science with the San Luis Valley community, LAPSE-RATE participants conducted nearly 1300 research flights totaling over 250 flight hours. The measurements collected have been used to advance capabilities (instrumentation, platforms, sampling techniques and modeling tools), conduct a detailed system intercomparison study, develop new collaborations, and foster community support for the use of UAS in atmospheric science.

AB - Members of the international community developing unmanned aircraft for atmospheric research conducted a highly-successful coordinated flight week in Colorado during summer 2018 to collect measurements, develop capabilities, and enhance community in the field. Because unmanned aircraft systems (UAS) offer new perspectives on the atmosphere, their use in atmospheric science is expanding rapidly. In support of this growth, the International Society for Atmospheric Research using Remotely-piloted Aircraft (ISARRA) has been developed and have convened annual meetings and 'flight weeks'. The 2018 flight week, dubbed the Lower Atmospheric Profiling Studies at Elevation - a Remotely-piloted Aircraft Team Experiment (LAPSE-RATE), involved a one-week deployment to Colorado's San Luis Valley. Between 14-20 July 2018 over 100 students, scientists, engineers, pilots and outreach coordinators conducted an intensive field operation using unmanned aircraft and ground-based assets to develop datasets, community, and capabilities. In addition to a coordinated 'community day' which offered a chance for groups to share their aircraft and science with the San Luis Valley community, LAPSE-RATE participants conducted nearly 1300 research flights totaling over 250 flight hours. The measurements collected have been used to advance capabilities (instrumentation, platforms, sampling techniques and modeling tools), conduct a detailed system intercomparison study, develop new collaborations, and foster community support for the use of UAS in atmospheric science.

KW - atmosphere

KW - PBL

KW - planetary boundary layer

KW - UAS

KW - unmanned aircraft systems

KW - wind energy

U2 - 10.1175/BAMS-D-19-0050.1

DO - 10.1175/BAMS-D-19-0050.1

M3 - Article

SN - 0003-0007

VL - 101

SP - E684-E699

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 5

ER -

Development of Community, Capabilities and Understanding Through Unmanned Aircraft-Based Atmospheric Research: The LAPSE-RATE Campaign

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Keywords

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