Hurricane Observations by Uncrewed Systems

Chidong Zhang; Gregory R. Foltz; Andy M. Chiodi; Calvin W. Mordy; Catherine R. Edwards; Christian Meinig; Dongxiao Zhang; Edoardo Mazza; Edward D. Cokelet; Eugene F. Burger; Francis Bringas; Gustavo J. Goni; Hristina G. Hristova; Hyun Sook Kim; Joaquin A. Trinanes; Jun A. Zhang; Kathleen E. Bailey; Kevin M. O’Brien; Maria Morales-Caez; Noah Lawrence-Slavas; Richard Jenkins; Shuyi S. Chen; Xingchao Chen

doi:10.1175/BAMS-D-21-0327.1

Hurricane Observations by Uncrewed Systems

Chidong Zhang, Gregory R. Foltz, Andy M. Chiodi, Calvin W. Mordy, Catherine R. Edwards, Christian Meinig, Dongxiao Zhang, Edoardo Mazza, Edward D. Cokelet, Eugene F. Burger, Francis Bringas, Gustavo J. Goni, Hristina G. Hristova, Hyun Sook Kim, Joaquin A. Trinanes, Jun A. Zhang, Kathleen E. Bailey, Kevin M. O’Brien, Maria Morales-Caez, Noah Lawrence-SlavasRichard Jenkins, Shuyi S. Chen, Xingchao Chen

Meteorology and Atmospheric Science

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10 Scopus citations

Abstract

On 30 September 2021, a saildrone uncrewed surface vehicle (USV) was steered into category 4 Hurricane Sam, the most intense storm of the 2021 Atlantic hurricane season. It measured significant wave heights up to 14 m (maximum wave height = 27 m) and near-surface winds exceeding 55 m s⁻¹. This was the first time in more than seven decades of hurricane observations that in real time a USV transmitted scientific data, images, and videos of the dynamic ocean surface near a hurricane’s eyewall. The saildrone was part of a five-saildrone deployment of the NOAA 2021 Atlantic Hurricane Observations Mission. These saildrones observed the atmospheric and oceanic near-surface conditions of five other tropical storms, of which two became hurricanes. Such observations inside tropical cyclones help to advance the understanding and prediction of hurricanes, with the ultimate goal of saving lives and protecting property. The 2021 deployment pioneered a new practice of coordinating measurements by saildrones, underwater gliders, and airborne dropsondes to make simultaneous and near-collocated observations of the air–sea interface, the ocean immediately below, and the atmosphere immediately above. This experimental deployment opened the door to a new era of using remotely piloted uncrewed systems to observe one of the most extreme phenomena on Earth in a way previously impossible. This article provides an overview of this saildrone hurricane observations mission, describes how the saildrones were coordinated with other observing platforms, presents preliminary scientific results from these observations to demonstrate their potential utility and motivate further data analysis, and offers a vision of future hurricane observations using combined uncrewed platforms.

Original language	English (US)
Pages (from-to)	E1893-E1917
Journal	Bulletin of the American Meteorological Society
Volume	104
Issue number	10
DOIs	https://doi.org/10.1175/BAMS-D-21-0327.1
State	Published - Oct 2023

All Science Journal Classification (ASJC) codes

Atmospheric Science

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10.1175/BAMS-D-21-0327.1

Cite this

Zhang, C., Foltz, G. R., Chiodi, A. M., Mordy, C. W., Edwards, C. R., Meinig, C., Zhang, D., Mazza, E., Cokelet, E. D., Burger, E. F., Bringas, F., Goni, G. J., Hristova, H. G., Kim, H. S., Trinanes, J. A., Zhang, J. A., Bailey, K. E., O’Brien, K. M., Morales-Caez, M., ... Chen, X. (2023). Hurricane Observations by Uncrewed Systems. Bulletin of the American Meteorological Society, 104(10), E1893-E1917. https://doi.org/10.1175/BAMS-D-21-0327.1

@article{d7e0b5f725574afaaf8024071ba78520,

title = "Hurricane Observations by Uncrewed Systems",

abstract = "On 30 September 2021, a saildrone uncrewed surface vehicle (USV) was steered into category 4 Hurricane Sam, the most intense storm of the 2021 Atlantic hurricane season. It measured significant wave heights up to 14 m (maximum wave height = 27 m) and near-surface winds exceeding 55 m s−1. This was the first time in more than seven decades of hurricane observations that in real time a USV transmitted scientific data, images, and videos of the dynamic ocean surface near a hurricane{\textquoteright}s eyewall. The saildrone was part of a five-saildrone deployment of the NOAA 2021 Atlantic Hurricane Observations Mission. These saildrones observed the atmospheric and oceanic near-surface conditions of five other tropical storms, of which two became hurricanes. Such observations inside tropical cyclones help to advance the understanding and prediction of hurricanes, with the ultimate goal of saving lives and protecting property. The 2021 deployment pioneered a new practice of coordinating measurements by saildrones, underwater gliders, and airborne dropsondes to make simultaneous and near-collocated observations of the air–sea interface, the ocean immediately below, and the atmosphere immediately above. This experimental deployment opened the door to a new era of using remotely piloted uncrewed systems to observe one of the most extreme phenomena on Earth in a way previously impossible. This article provides an overview of this saildrone hurricane observations mission, describes how the saildrones were coordinated with other observing platforms, presents preliminary scientific results from these observations to demonstrate their potential utility and motivate further data analysis, and offers a vision of future hurricane observations using combined uncrewed platforms.",

author = "Chidong Zhang and Foltz, {Gregory R.} and Chiodi, {Andy M.} and Mordy, {Calvin W.} and Edwards, {Catherine R.} and Christian Meinig and Dongxiao Zhang and Edoardo Mazza and Cokelet, {Edward D.} and Burger, {Eugene F.} and Francis Bringas and Goni, {Gustavo J.} and Hristova, {Hristina G.} and Kim, {Hyun Sook} and Trinanes, {Joaquin A.} and Zhang, {Jun A.} and Bailey, {Kathleen E.} and O{\textquoteright}Brien, {Kevin M.} and Maria Morales-Caez and Noah Lawrence-Slavas and Richard Jenkins and Chen, {Shuyi S.} and Xingchao Chen",

note = "Publisher Copyright: {\textcopyright} 2023 American Meteorological Society.",

year = "2023",

month = oct,

doi = "10.1175/BAMS-D-21-0327.1",

language = "English (US)",

volume = "104",

pages = "E1893--E1917",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

number = "10",

}

Zhang, C, Foltz, GR, Chiodi, AM, Mordy, CW, Edwards, CR, Meinig, C, Zhang, D, Mazza, E, Cokelet, ED, Burger, EF, Bringas, F, Goni, GJ, Hristova, HG, Kim, HS, Trinanes, JA, Zhang, JA, Bailey, KE, O’Brien, KM, Morales-Caez, M, Lawrence-Slavas, N, Jenkins, R, Chen, SS & Chen, X 2023, 'Hurricane Observations by Uncrewed Systems', Bulletin of the American Meteorological Society, vol. 104, no. 10, pp. E1893-E1917. https://doi.org/10.1175/BAMS-D-21-0327.1

TY - JOUR

T1 - Hurricane Observations by Uncrewed Systems

AU - Zhang, Chidong

AU - Foltz, Gregory R.

AU - Chiodi, Andy M.

AU - Mordy, Calvin W.

AU - Edwards, Catherine R.

AU - Meinig, Christian

AU - Zhang, Dongxiao

AU - Mazza, Edoardo

AU - Cokelet, Edward D.

AU - Burger, Eugene F.

AU - Bringas, Francis

AU - Goni, Gustavo J.

AU - Hristova, Hristina G.

AU - Kim, Hyun Sook

AU - Trinanes, Joaquin A.

AU - Zhang, Jun A.

AU - Bailey, Kathleen E.

AU - O’Brien, Kevin M.

AU - Morales-Caez, Maria

AU - Lawrence-Slavas, Noah

AU - Jenkins, Richard

AU - Chen, Shuyi S.

AU - Chen, Xingchao

PY - 2023/10

Y1 - 2023/10

N2 - On 30 September 2021, a saildrone uncrewed surface vehicle (USV) was steered into category 4 Hurricane Sam, the most intense storm of the 2021 Atlantic hurricane season. It measured significant wave heights up to 14 m (maximum wave height = 27 m) and near-surface winds exceeding 55 m s−1. This was the first time in more than seven decades of hurricane observations that in real time a USV transmitted scientific data, images, and videos of the dynamic ocean surface near a hurricane’s eyewall. The saildrone was part of a five-saildrone deployment of the NOAA 2021 Atlantic Hurricane Observations Mission. These saildrones observed the atmospheric and oceanic near-surface conditions of five other tropical storms, of which two became hurricanes. Such observations inside tropical cyclones help to advance the understanding and prediction of hurricanes, with the ultimate goal of saving lives and protecting property. The 2021 deployment pioneered a new practice of coordinating measurements by saildrones, underwater gliders, and airborne dropsondes to make simultaneous and near-collocated observations of the air–sea interface, the ocean immediately below, and the atmosphere immediately above. This experimental deployment opened the door to a new era of using remotely piloted uncrewed systems to observe one of the most extreme phenomena on Earth in a way previously impossible. This article provides an overview of this saildrone hurricane observations mission, describes how the saildrones were coordinated with other observing platforms, presents preliminary scientific results from these observations to demonstrate their potential utility and motivate further data analysis, and offers a vision of future hurricane observations using combined uncrewed platforms.

AB - On 30 September 2021, a saildrone uncrewed surface vehicle (USV) was steered into category 4 Hurricane Sam, the most intense storm of the 2021 Atlantic hurricane season. It measured significant wave heights up to 14 m (maximum wave height = 27 m) and near-surface winds exceeding 55 m s−1. This was the first time in more than seven decades of hurricane observations that in real time a USV transmitted scientific data, images, and videos of the dynamic ocean surface near a hurricane’s eyewall. The saildrone was part of a five-saildrone deployment of the NOAA 2021 Atlantic Hurricane Observations Mission. These saildrones observed the atmospheric and oceanic near-surface conditions of five other tropical storms, of which two became hurricanes. Such observations inside tropical cyclones help to advance the understanding and prediction of hurricanes, with the ultimate goal of saving lives and protecting property. The 2021 deployment pioneered a new practice of coordinating measurements by saildrones, underwater gliders, and airborne dropsondes to make simultaneous and near-collocated observations of the air–sea interface, the ocean immediately below, and the atmosphere immediately above. This experimental deployment opened the door to a new era of using remotely piloted uncrewed systems to observe one of the most extreme phenomena on Earth in a way previously impossible. This article provides an overview of this saildrone hurricane observations mission, describes how the saildrones were coordinated with other observing platforms, presents preliminary scientific results from these observations to demonstrate their potential utility and motivate further data analysis, and offers a vision of future hurricane observations using combined uncrewed platforms.

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U2 - 10.1175/BAMS-D-21-0327.1

DO - 10.1175/BAMS-D-21-0327.1

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VL - 104

SP - E1893-E1917

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 10

ER -

Hurricane Observations by Uncrewed Systems

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