Uncrewed surface vehicles in the Global Ocean Observing System: a new frontier for observing and monitoring at the air-sea interface

Ruth G. Patterson; Meghan F. Cronin; Sebastiaan Swart; Joana Beja; Johan M. Edholm; Jason McKenna; Jaime B. Palter; Alex Parker; Charles I. Addey; Wieter Boone; Paban Bhuyan; Justin J.H. Buck; Eugene F. Burger; James Burris; Lionel Camus; Brad de Young; Marcel du Plessis; Mike Flanigan; Gregory R. Foltz; Sarah T. Gille; Laurent Grare; Jeff E. Hansen; Lars Robert Hole; Makio C. Honda; Verena Hormann; Catherine Kohlman; Naoko Kosaka; Carey Kuhn; Luc Lenain; Lev Looney; Andreas Marouchos; Elizabeth K. McGeorge; Clive R. McMahon; Satoshi Mitarai; Calvin Mordy; Akira Nagano; Sarah Anne Nicholson; Sarah Nickford; Kevin M. O’Brien; David Peddie; Leandro Ponsoni; Virginie Ramasco; Nick Rozenauers; Elizabeth Siddle; Cheyenne Stienbarger; Adrienne J. Sutton; Noriko Tada; Jim Thomson; Iwao Ueki; Lisan Yu; Chidong Zhang; Dongxiao Zhang

doi:10.3389/fmars.2025.1523585

Uncrewed surface vehicles in the Global Ocean Observing System: a new frontier for observing and monitoring at the air-sea interface

Ruth G. Patterson, Meghan F. Cronin, Sebastiaan Swart, Joana Beja, Johan M. Edholm, Jason McKenna, Jaime B. Palter, Alex Parker, Charles I. Addey, Wieter Boone, Paban Bhuyan, Justin J.H. Buck, Eugene F. Burger, James Burris, Lionel Camus, Brad de Young, Marcel du Plessis, Mike Flanigan, Gregory R. Foltz, Sarah T. GilleLaurent Grare, Jeff E. Hansen, Lars Robert Hole, Makio C. Honda, Verena Hormann, Catherine Kohlman, Naoko Kosaka, Carey Kuhn, Luc Lenain, Lev Looney, Andreas Marouchos, Elizabeth K. McGeorge, Clive R. McMahon, Satoshi Mitarai, Calvin Mordy, Akira Nagano, Sarah Anne Nicholson, Sarah Nickford, Kevin M. O’Brien, David Peddie, Leandro Ponsoni, Virginie Ramasco, Nick Rozenauers, Elizabeth Siddle, Cheyenne Stienbarger, Adrienne J. Sutton, Noriko Tada, Jim Thomson, Iwao Ueki, Lisan Yu, Chidong Zhang, Dongxiao Zhang

Research output: Contribution to journal › Review article › peer-review

Abstract

Observing air-sea interactions on a global scale is essential for improving Earth system forecasts. Yet these exchanges are challenging to quantify for a range of reasons, including extreme conditions, vast and remote under-sampled locations, requirements for a multitude of co-located variables, and the high variability of fluxes in space and time. Uncrewed Surface Vehicles (USVs) present a novel solution for measuring these crucial air-sea interactions at a global scale. Powered by renewable energy (e.g., wind and waves for propulsion, solar power for electronics), USVs have provided navigable and persistent observing capabilities over the past decade and a half. In our review of 200 USV datasets and 96 studies, we found USVs have observed a total of 33 variables spanning physical, biogeochemical, biological and ecological processes at the air-sea transition zone. We present a map showing the global proliferation of USV adoption for scientific ocean observing. This review, carried out under the auspices of the ‘Observing Air-Sea Interactions Strategy’ (OASIS), makes the case for a permanent USV network to complement the mature and emerging networks within the Global Ocean Observing System (GOOS). The Observations Coordination Group (OCG) overseeing GOOS has identified ten attributes of an in-situ global network. Here, we discuss and evaluate the maturation of the USV network towards meeting these attributes. Our article forms the basis of a roadmap to formalise and guide the global USV community towards a novel and integrated ocean observing frontier.

Original language	English
Article number	1523585
Number of pages	23
Journal	Frontiers in Marine Science
Volume	12
DOIs	https://doi.org/10.3389/fmars.2025.1523585
Publication status	Published - 7 Mar 2025

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Patterson, R. G., Cronin, M. F., Swart, S., Beja, J., Edholm, J. M., McKenna, J., Palter, J. B., Parker, A., Addey, C. I., Boone, W., Bhuyan, P., Buck, J. J. H., Burger, E. F., Burris, J., Camus, L., de Young, B., du Plessis, M., Flanigan, M., Foltz, G. R., ... Zhang, D. (2025). Uncrewed surface vehicles in the Global Ocean Observing System: a new frontier for observing and monitoring at the air-sea interface. Frontiers in Marine Science, 12, Article 1523585. https://doi.org/10.3389/fmars.2025.1523585

@article{49128e429c364dcaa722b74622b55f72,

title = "Uncrewed surface vehicles in the Global Ocean Observing System: a new frontier for observing and monitoring at the air-sea interface",

abstract = "Observing air-sea interactions on a global scale is essential for improving Earth system forecasts. Yet these exchanges are challenging to quantify for a range of reasons, including extreme conditions, vast and remote under-sampled locations, requirements for a multitude of co-located variables, and the high variability of fluxes in space and time. Uncrewed Surface Vehicles (USVs) present a novel solution for measuring these crucial air-sea interactions at a global scale. Powered by renewable energy (e.g., wind and waves for propulsion, solar power for electronics), USVs have provided navigable and persistent observing capabilities over the past decade and a half. In our review of 200 USV datasets and 96 studies, we found USVs have observed a total of 33 variables spanning physical, biogeochemical, biological and ecological processes at the air-sea transition zone. We present a map showing the global proliferation of USV adoption for scientific ocean observing. This review, carried out under the auspices of the {\textquoteleft}Observing Air-Sea Interactions Strategy{\textquoteright} (OASIS), makes the case for a permanent USV network to complement the mature and emerging networks within the Global Ocean Observing System (GOOS). The Observations Coordination Group (OCG) overseeing GOOS has identified ten attributes of an in-situ global network. Here, we discuss and evaluate the maturation of the USV network towards meeting these attributes. Our article forms the basis of a roadmap to formalise and guide the global USV community towards a novel and integrated ocean observing frontier.",

keywords = "Air-sea interactions, Autonomous Surface Vessel (ASV), Essential Climate Variables (ECV), Essential Ocean Variables (EOV), Global Ocean Observing System (GOOS), In situ ocean observing system, Uncrewed Surface Vehicle (USV), weather observation",

author = "Patterson, {Ruth G.} and Cronin, {Meghan F.} and Sebastiaan Swart and Joana Beja and Edholm, {Johan M.} and Jason McKenna and Palter, {Jaime B.} and Alex Parker and Addey, {Charles I.} and Wieter Boone and Paban Bhuyan and Buck, {Justin J.H.} and Burger, {Eugene F.} and James Burris and Lionel Camus and {de Young}, Brad and {du Plessis}, Marcel and Mike Flanigan and Foltz, {Gregory R.} and Gille, {Sarah T.} and Laurent Grare and Hansen, {Jeff E.} and Hole, {Lars Robert} and Honda, {Makio C.} and Verena Hormann and Catherine Kohlman and Naoko Kosaka and Carey Kuhn and Luc Lenain and Lev Looney and Andreas Marouchos and McGeorge, {Elizabeth K.} and McMahon, {Clive R.} and Satoshi Mitarai and Calvin Mordy and Akira Nagano and Nicholson, {Sarah Anne} and Sarah Nickford and O{\textquoteright}Brien, {Kevin M.} and David Peddie and Leandro Ponsoni and Virginie Ramasco and Nick Rozenauers and Elizabeth Siddle and Cheyenne Stienbarger and Sutton, {Adrienne J.} and Noriko Tada and Jim Thomson and Iwao Ueki and Lisan Yu and Chidong Zhang and Dongxiao Zhang",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Patterson, Cronin, Swart, Beja, Edholm, McKenna, Palter, Parker, Addey, Boone, Bhuyan, Buck, Burger, Burris, Camus, de Young, du Plessis, Flanigan, Foltz, Gille, Grare, Hansen, Hole, Honda, Hormann, Kohlman, Kosaka, Kuhn, Lenain, Looney, Marouchos, McGeorge, McMahon, Mitarai, Mordy, Nagano, Nicholson, Nickford, O{\textquoteright}Brien, Peddie, Ponsoni, Ramasco, Rozenauers, Siddle, Stienbarger, Sutton, Tada, Thomson, Ueki, Yu, Zhang and Zhang.",

year = "2025",

month = mar,

day = "7",

doi = "10.3389/fmars.2025.1523585",

language = "English",

volume = "12",

journal = "Frontiers in Marine Science",

issn = "2296-7745",

publisher = "Frontiers Media SA",

}

Patterson, RG, Cronin, MF, Swart, S, Beja, J, Edholm, JM, McKenna, J, Palter, JB, Parker, A, Addey, CI, Boone, W, Bhuyan, P, Buck, JJH, Burger, EF, Burris, J, Camus, L, de Young, B, du Plessis, M, Flanigan, M, Foltz, GR, Gille, ST, Grare, L, Hansen, JE, Hole, LR, Honda, MC, Hormann, V, Kohlman, C, Kosaka, N, Kuhn, C, Lenain, L, Looney, L, Marouchos, A, McGeorge, EK, McMahon, CR, Mitarai, S, Mordy, C, Nagano, A, Nicholson, SA, Nickford, S, O’Brien, KM, Peddie, D, Ponsoni, L, Ramasco, V, Rozenauers, N, Siddle, E, Stienbarger, C, Sutton, AJ, Tada, N, Thomson, J, Ueki, I, Yu, L, Zhang, C & Zhang, D 2025, 'Uncrewed surface vehicles in the Global Ocean Observing System: a new frontier for observing and monitoring at the air-sea interface', Frontiers in Marine Science, vol. 12, 1523585. https://doi.org/10.3389/fmars.2025.1523585

TY - JOUR

T1 - Uncrewed surface vehicles in the Global Ocean Observing System

T2 - a new frontier for observing and monitoring at the air-sea interface

AU - Patterson, Ruth G.

AU - Cronin, Meghan F.

AU - Swart, Sebastiaan

AU - Beja, Joana

AU - Edholm, Johan M.

AU - McKenna, Jason

AU - Palter, Jaime B.

AU - Parker, Alex

AU - Addey, Charles I.

AU - Boone, Wieter

AU - Bhuyan, Paban

AU - Buck, Justin J.H.

AU - Burger, Eugene F.

AU - Burris, James

AU - Camus, Lionel

AU - de Young, Brad

AU - du Plessis, Marcel

AU - Flanigan, Mike

AU - Foltz, Gregory R.

AU - Gille, Sarah T.

AU - Grare, Laurent

AU - Hansen, Jeff E.

AU - Hole, Lars Robert

AU - Honda, Makio C.

AU - Hormann, Verena

AU - Kohlman, Catherine

AU - Kosaka, Naoko

AU - Kuhn, Carey

AU - Lenain, Luc

AU - Looney, Lev

AU - Marouchos, Andreas

AU - McGeorge, Elizabeth K.

AU - McMahon, Clive R.

AU - Mitarai, Satoshi

AU - Mordy, Calvin

AU - Nagano, Akira

AU - Nicholson, Sarah Anne

AU - Nickford, Sarah

AU - O’Brien, Kevin M.

AU - Peddie, David

AU - Ponsoni, Leandro

AU - Ramasco, Virginie

AU - Rozenauers, Nick

AU - Siddle, Elizabeth

AU - Stienbarger, Cheyenne

AU - Sutton, Adrienne J.

AU - Tada, Noriko

AU - Thomson, Jim

AU - Ueki, Iwao

AU - Yu, Lisan

AU - Zhang, Chidong

AU - Zhang, Dongxiao

N1 - Publisher Copyright: Copyright © 2025 Patterson, Cronin, Swart, Beja, Edholm, McKenna, Palter, Parker, Addey, Boone, Bhuyan, Buck, Burger, Burris, Camus, de Young, du Plessis, Flanigan, Foltz, Gille, Grare, Hansen, Hole, Honda, Hormann, Kohlman, Kosaka, Kuhn, Lenain, Looney, Marouchos, McGeorge, McMahon, Mitarai, Mordy, Nagano, Nicholson, Nickford, O’Brien, Peddie, Ponsoni, Ramasco, Rozenauers, Siddle, Stienbarger, Sutton, Tada, Thomson, Ueki, Yu, Zhang and Zhang.

PY - 2025/3/7

Y1 - 2025/3/7

N2 - Observing air-sea interactions on a global scale is essential for improving Earth system forecasts. Yet these exchanges are challenging to quantify for a range of reasons, including extreme conditions, vast and remote under-sampled locations, requirements for a multitude of co-located variables, and the high variability of fluxes in space and time. Uncrewed Surface Vehicles (USVs) present a novel solution for measuring these crucial air-sea interactions at a global scale. Powered by renewable energy (e.g., wind and waves for propulsion, solar power for electronics), USVs have provided navigable and persistent observing capabilities over the past decade and a half. In our review of 200 USV datasets and 96 studies, we found USVs have observed a total of 33 variables spanning physical, biogeochemical, biological and ecological processes at the air-sea transition zone. We present a map showing the global proliferation of USV adoption for scientific ocean observing. This review, carried out under the auspices of the ‘Observing Air-Sea Interactions Strategy’ (OASIS), makes the case for a permanent USV network to complement the mature and emerging networks within the Global Ocean Observing System (GOOS). The Observations Coordination Group (OCG) overseeing GOOS has identified ten attributes of an in-situ global network. Here, we discuss and evaluate the maturation of the USV network towards meeting these attributes. Our article forms the basis of a roadmap to formalise and guide the global USV community towards a novel and integrated ocean observing frontier.

AB - Observing air-sea interactions on a global scale is essential for improving Earth system forecasts. Yet these exchanges are challenging to quantify for a range of reasons, including extreme conditions, vast and remote under-sampled locations, requirements for a multitude of co-located variables, and the high variability of fluxes in space and time. Uncrewed Surface Vehicles (USVs) present a novel solution for measuring these crucial air-sea interactions at a global scale. Powered by renewable energy (e.g., wind and waves for propulsion, solar power for electronics), USVs have provided navigable and persistent observing capabilities over the past decade and a half. In our review of 200 USV datasets and 96 studies, we found USVs have observed a total of 33 variables spanning physical, biogeochemical, biological and ecological processes at the air-sea transition zone. We present a map showing the global proliferation of USV adoption for scientific ocean observing. This review, carried out under the auspices of the ‘Observing Air-Sea Interactions Strategy’ (OASIS), makes the case for a permanent USV network to complement the mature and emerging networks within the Global Ocean Observing System (GOOS). The Observations Coordination Group (OCG) overseeing GOOS has identified ten attributes of an in-situ global network. Here, we discuss and evaluate the maturation of the USV network towards meeting these attributes. Our article forms the basis of a roadmap to formalise and guide the global USV community towards a novel and integrated ocean observing frontier.

KW - Air-sea interactions

KW - Autonomous Surface Vessel (ASV)

KW - Essential Climate Variables (ECV)

KW - Essential Ocean Variables (EOV)

KW - Global Ocean Observing System (GOOS)

KW - In situ ocean observing system

KW - Uncrewed Surface Vehicle (USV)

KW - weather observation

UR - http://www.scopus.com/inward/record.url?scp=105000635267&partnerID=8YFLogxK

U2 - 10.3389/fmars.2025.1523585

DO - 10.3389/fmars.2025.1523585

M3 - Review article

AN - SCOPUS:105000635267

SN - 2296-7745

VL - 12

JO - Frontiers in Marine Science

JF - Frontiers in Marine Science

M1 - 1523585

ER -

Uncrewed surface vehicles in the Global Ocean Observing System: a new frontier for observing and monitoring at the air-sea interface

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