Heliophysics and amateur radio: citizen science collaborations for atmospheric, ionospheric, and space physics research and operations

Nathaniel A. Frissell; John R Ackermann; Jesse N. Alexander; Robert l. Benedict; William C. Blackwell; Rachel K. Boedicker; Stephen A. Cerwin; Kristina V. Collins; Scott H. Cowling; Chris Deacon; Devin M. Diehl; Francesca Di Mare; Timothy J. Duffy; Laura Brandt Edson; William D. Engelke; James O. Farmer; Rachel M. Frissell; Robert B. Gerzoff; John Gibbons; Gwyn Griffiths; Sverre Holm; Frank M. Howell; Stephen R. Kaeppler; George Kavanagh; David Kazdan; Hyomin Kim; David R. Larsen; Vincent E. Ledvina; William Liles; Sam Lo; Michael A. Lombardi; Elizabeth A. Macdonald; Julius Madey; Thomas C McDermott; David G. McGaw; Robert w. Mcgwier; Gary a. Mikitin; Ethan s. Miller; Cathryn Mitchell; Aidan Montare; Cuong D. Nguyen; Peter N. Nordberg; Gareth W. Perry; Gerard N. Piccini; Stanley W. Pozerski; Robert H. Reif; Jonathan D. Rizzo; Robert S. Robinett; Veronica I Romanek; Simal Sami; Diego F. Sanchez; Muhammad Shaaf Sarwar; Jay A. Schwartz; H. Lawrence Serra; H. Ward Silver; Tamitha Mulligan Skov; David A. Swartz; David R. Themens; Francis H. Tholley; Mary Lou West; Ronald C. Wilcox; David Witten; Ben A. Witvliet; Nisha Yadav

doi:10.3389/fspas.2023.1184171

Heliophysics and amateur radio: citizen science collaborations for atmospheric, ionospheric, and space physics research and operations

Nathaniel A. Frissell, John R Ackermann, Jesse N. Alexander, Robert l. Benedict, William C. Blackwell, Rachel K. Boedicker, Stephen A. Cerwin, Kristina V. Collins, Scott H. Cowling, Chris Deacon, Devin M. Diehl, Francesca Di Mare, Timothy J. Duffy, Laura Brandt Edson, William D. Engelke, James O. Farmer, Rachel M. Frissell, Robert B. Gerzoff, John Gibbons, Gwyn GriffithsSverre Holm, Frank M. Howell, Stephen R. Kaeppler, George Kavanagh, David Kazdan, Hyomin Kim, David R. Larsen, Vincent E. Ledvina, William Liles, Sam Lo, Michael A. Lombardi, Elizabeth A. Macdonald, Julius Madey, Thomas C McDermott, David G. McGaw, Robert w. Mcgwier, Gary a. Mikitin, Ethan s. Miller, Cathryn Mitchell, Aidan Montare, Cuong D. Nguyen, Peter N. Nordberg, Gareth W. Perry, Gerard N. Piccini, Stanley W. Pozerski, Robert H. Reif, Jonathan D. Rizzo, Robert S. Robinett, Veronica I Romanek, Simal Sami, Diego F. Sanchez, Muhammad Shaaf Sarwar, Jay A. Schwartz, H. Lawrence Serra, H. Ward Silver, Tamitha Mulligan Skov, David A. Swartz, David R. Themens, Francis H. Tholley, Mary Lou West, Ronald C. Wilcox, David Witten, Ben A. Witvliet, Nisha Yadav

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

2 Citations (SciVal)

Abstract

The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.

Original language	English
Number of pages	31
Journal	Frontiers in Astronomy and Space Sciences
Volume	10
DOIs	https://doi.org/10.3389/fspas.2023.1184171
Publication status	Published - 16 Nov 2023

Funding

NAF acknowledges the generous support of NSF Grants AGS-2045755, AGS-2002278, AGS-1932997, AGS-1932972, AGS-2230345 and AGS-2230346, NASA Grants 80NSSC23K1322 and 80NSSC21K1772 and Amateur Radio Digital Communications (ARDC). VEF is supported by NSF Graduate Research Fellowship grant 2235201. KVC is supported by NSF grant ANT-2218996. BAW was funded by INFRAIA-02-2020, grant number 101007599, as part of the project “Plasmasphere Ionosphere Thermosphere Integrated Research Environment and Access services: A Network of Research Facilities (PITHIA-NRF),” (https://www.pithia-nrf.eu/). The Ham Radio Project (JNA/NRAO) is supported through a generous grant from ARDC. We also thank the American Radio Relay League (ARRL) for donating license manuals and other learning materials and acknowledge the Tuscon Amateur Packet Radio and the Young Amateurs Radio Club for their administrative and technical support.

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10.3389/fspas.2023.1184171Licence: CC BY

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Frissell, N. A., Ackermann, J. R., Alexander, J. N., Benedict, R. L., Blackwell, W. C., Boedicker, R. K., Cerwin, S. A., Collins, K. V., Cowling, S. H., Deacon, C., Diehl, D. M., Di Mare, F., Duffy, T. J., Edson, L. B., Engelke, W. D., Farmer, J. O., Frissell, R. M., Gerzoff, R. B., Gibbons, J., ... Yadav, N. (2023). Heliophysics and amateur radio: citizen science collaborations for atmospheric, ionospheric, and space physics research and operations. Frontiers in Astronomy and Space Sciences, 10. https://doi.org/10.3389/fspas.2023.1184171

Frissell, NA, Ackermann, JR, Alexander, JN, Benedict, RL, Blackwell, WC, Boedicker, RK, Cerwin, SA, Collins, KV, Cowling, SH, Deacon, C, Diehl, DM, Di Mare, F, Duffy, TJ, Edson, LB, Engelke, WD, Farmer, JO, Frissell, RM, Gerzoff, RB, Gibbons, J, Griffiths, G, Holm, S, Howell, FM, Kaeppler, SR, Kavanagh, G, Kazdan, D, Kim, H, Larsen, DR, Ledvina, VE, Liles, W, Lo, S, Lombardi, MA, Macdonald, EA, Madey, J, McDermott, TC, McGaw, DG, Mcgwier, RW, Mikitin, GA, Miller, ES, Mitchell, C, Montare, A, Nguyen, CD, Nordberg, PN, Perry, GW, Piccini, GN, Pozerski, SW, Reif, RH, Rizzo, JD, Robinett, RS, Romanek, VI, Sami, S, Sanchez, DF, Sarwar, MS, Schwartz, JA, Serra, HL, Silver, HW, Skov, TM, Swartz, DA, Themens, DR, Tholley, FH, West, ML, Wilcox, RC, Witten, D, Witvliet, BA & Yadav, N 2023, 'Heliophysics and amateur radio: citizen science collaborations for atmospheric, ionospheric, and space physics research and operations', Frontiers in Astronomy and Space Sciences, vol. 10. https://doi.org/10.3389/fspas.2023.1184171

@article{636b545d5bfa4814977522783d7bd639,

title = "Heliophysics and amateur radio: citizen science collaborations for atmospheric, ionospheric, and space physics research and operations",

abstract = "The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.",

author = "Frissell, {Nathaniel A.} and Ackermann, {John R} and Alexander, {Jesse N.} and Benedict, {Robert l.} and Blackwell, {William C.} and Boedicker, {Rachel K.} and Cerwin, {Stephen A.} and Collins, {Kristina V.} and Cowling, {Scott H.} and Chris Deacon and Diehl, {Devin M.} and {Di Mare}, Francesca and Duffy, {Timothy J.} and Edson, {Laura Brandt} and Engelke, {William D.} and Farmer, {James O.} and Frissell, {Rachel M.} and Gerzoff, {Robert B.} and John Gibbons and Gwyn Griffiths and Sverre Holm and Howell, {Frank M.} and Kaeppler, {Stephen R.} and George Kavanagh and David Kazdan and Hyomin Kim and Larsen, {David R.} and Ledvina, {Vincent E.} and William Liles and Sam Lo and Lombardi, {Michael A.} and Macdonald, {Elizabeth A.} and Julius Madey and McDermott, {Thomas C} and McGaw, {David G.} and Mcgwier, {Robert w.} and Mikitin, {Gary a.} and Miller, {Ethan s.} and Cathryn Mitchell and Aidan Montare and Nguyen, {Cuong D.} and Nordberg, {Peter N.} and Perry, {Gareth W.} and Piccini, {Gerard N.} and Pozerski, {Stanley W.} and Reif, {Robert H.} and Rizzo, {Jonathan D.} and Robinett, {Robert S.} and Romanek, {Veronica I} and Simal Sami and Sanchez, {Diego F.} and Sarwar, {Muhammad Shaaf} and Schwartz, {Jay A.} and Serra, {H. Lawrence} and Silver, {H. Ward} and Skov, {Tamitha Mulligan} and Swartz, {David A.} and Themens, {David R.} and Tholley, {Francis H.} and West, {Mary Lou} and Wilcox, {Ronald C.} and David Witten and Witvliet, {Ben A.} and Nisha Yadav",

year = "2023",

month = nov,

day = "16",

doi = "10.3389/fspas.2023.1184171",

language = "English",

volume = "10",

journal = "Frontiers in Astronomy and Space Sciences",

issn = "2296-987X",

publisher = "Frontiers Media SA",

}

TY - JOUR

T1 - Heliophysics and amateur radio

T2 - citizen science collaborations for atmospheric, ionospheric, and space physics research and operations

AU - Frissell, Nathaniel A.

AU - Ackermann, John R

AU - Alexander, Jesse N.

AU - Benedict, Robert l.

AU - Blackwell, William C.

AU - Boedicker, Rachel K.

AU - Cerwin, Stephen A.

AU - Collins, Kristina V.

AU - Cowling, Scott H.

AU - Deacon, Chris

AU - Diehl, Devin M.

AU - Di Mare, Francesca

AU - Duffy, Timothy J.

AU - Edson, Laura Brandt

AU - Engelke, William D.

AU - Farmer, James O.

AU - Frissell, Rachel M.

AU - Gerzoff, Robert B.

AU - Gibbons, John

AU - Griffiths, Gwyn

AU - Holm, Sverre

AU - Howell, Frank M.

AU - Kaeppler, Stephen R.

AU - Kavanagh, George

AU - Kazdan, David

AU - Kim, Hyomin

AU - Larsen, David R.

AU - Ledvina, Vincent E.

AU - Liles, William

AU - Lo, Sam

AU - Lombardi, Michael A.

AU - Macdonald, Elizabeth A.

AU - Madey, Julius

AU - McDermott, Thomas C

AU - McGaw, David G.

AU - Mcgwier, Robert w.

AU - Mikitin, Gary a.

AU - Miller, Ethan s.

AU - Mitchell, Cathryn

AU - Montare, Aidan

AU - Nguyen, Cuong D.

AU - Nordberg, Peter N.

AU - Perry, Gareth W.

AU - Piccini, Gerard N.

AU - Pozerski, Stanley W.

AU - Reif, Robert H.

AU - Rizzo, Jonathan D.

AU - Robinett, Robert S.

AU - Romanek, Veronica I

AU - Sami, Simal

AU - Sanchez, Diego F.

AU - Sarwar, Muhammad Shaaf

AU - Schwartz, Jay A.

AU - Serra, H. Lawrence

AU - Silver, H. Ward

AU - Skov, Tamitha Mulligan

AU - Swartz, David A.

AU - Themens, David R.

AU - Tholley, Francis H.

AU - West, Mary Lou

AU - Wilcox, Ronald C.

AU - Witten, David

AU - Witvliet, Ben A.

AU - Yadav, Nisha

PY - 2023/11/16

Y1 - 2023/11/16

N2 - The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.

AB - The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.The amateur radio community is a global, highly engaged, and technical community with an intense interest in space weather, its underlying physics, and how it impacts radio communications. The large-scale observational capabilities of distributed instrumentation fielded by amateur radio operators and radio science enthusiasts offers a tremendous opportunity to advance the fields of heliophysics, radio science, space weather. Well-established amateur radio networks like the RBN, WSPRNet, and PSKReporter already provide rich, ever-growing, long-term data of bottomside ionospheric observations. Up-and-coming purpose-built citizen science networks, and their associated novel instruments, offer opportunities for citizen scientists, professional researchers, and industry to field networks for specific science questions and operational needs. Here, we discuss the scientific and technical capabilities of the global amateur radio community, review methods of collaboration between the amateur radio and professional scientific community, and review recent peer-reviewed studies that have made use of amateur radio data and methods. Finally, we present recommendations submitted to the U.S. National Academy of Science Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 for using amateur radio to further advance heliophysics and for fostering deeper collaborations between the professional science and amateur radio communities. Technical recommendations include increasing support for distributed instrumentation fielded by amateur radio operators and citizen scientists, developing novel transmissions of RF signals that can be used in citizen science experiments, developing new amateur radio modes that simultaneously allow for communications and ionospheric sounding, and formally incorporating the amateur radio community and its observational assets into the Space Weather R2O2R framework. Collaborative recommendations include allocating resources for amateur radio citizen science research projects and activities, developing amateur radio research and educational activities in collaboration with leading organizations within the amateur radio community, facilitating communication and collegiality between professional researchers and amateurs, ensuring that proposed projects are of a mutual benefit to both the professional research and amateur radio communities, and working towards diverse, equitable, and inclusive communities.

U2 - 10.3389/fspas.2023.1184171

DO - 10.3389/fspas.2023.1184171

M3 - Article

SN - 2296-987X

VL - 10

JO - Frontiers in Astronomy and Space Sciences

JF - Frontiers in Astronomy and Space Sciences

ER -

Heliophysics and amateur radio: citizen science collaborations for atmospheric, ionospheric, and space physics research and operations

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