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AURORASAURUS: citizen science, early warning systems and space weather

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

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AURORASAURUS: citizen science, early warning systems and space weather. / Tapia, Andrea; Lalone, Nicolas; MacDonald, Elizabeth et al.
2014.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Tapia, A, Lalone, N, MacDonald, E, Hall, M, Case, N & Heavner, M 2014, 'AURORASAURUS: citizen science, early warning systems and space weather'. https://doi.org/10.13140/2.1.4865.0563

APA

Tapia, A., Lalone, N., MacDonald, E., Hall, M., Case, N., & Heavner, M. (2014). AURORASAURUS: citizen science, early warning systems and space weather. https://doi.org/10.13140/2.1.4865.0563

Vancouver

Tapia A, Lalone N, MacDonald E, Hall M, Case N, Heavner M. AURORASAURUS: citizen science, early warning systems and space weather. 2014. doi: 10.13140/2.1.4865.0563

Author

Tapia, Andrea ; Lalone, Nicolas ; MacDonald, Elizabeth et al. / AURORASAURUS : citizen science, early warning systems and space weather.

Bibtex

@conference{4e5ab10aa2804ed2849b5222a8f8014b,
title = "AURORASAURUS: citizen science, early warning systems and space weather",
abstract = "We have created Aurorasaurus, a website, a mobile application and a scientific tool that allows a community of users to better predict sightings of the aurora borealis. We focus on the aurora borealis as a rare and unpredictable event (as a proxy for a natural disaster), as it is in the middle latitudes, highly populated areas in North American and Europe. In the northern half of the continental United States the aurora may be visible once or twice per year. In the Southern half, perhaps only once every 20 years, especially during a solar maximum. We feel that the similarities between natural disaster occurrence and auroral occurrence can offer a chance for researchers to test elements of an Early Warning System. The years around 2014 are the latest solar maximum recurring on an eleven-year solar cycle. Now is the time when aurora is more likely over populated areas, and this is the first solar maximum with social media, an unprecedented opportunity to engage the public, the scientific community, and the media. Space weather scientists have only coarse means to predict where the aurora will occur. Forecasts derived from state-of-the-solar wind models and satellite-based observations of the Sun estimate the arrival of the coronal mass ejection.",
author = "Andrea Tapia and Nicolas Lalone and Elizabeth MacDonald and Michelle Hall and Nathan Case and Matt Heavner",
year = "2014",
month = oct,
doi = "10.13140/2.1.4865.0563",
language = "English",

}

RIS

TY - CONF

T1 - AURORASAURUS

T2 - citizen science, early warning systems and space weather

AU - Tapia, Andrea

AU - Lalone, Nicolas

AU - MacDonald, Elizabeth

AU - Hall, Michelle

AU - Case, Nathan

AU - Heavner, Matt

PY - 2014/10

Y1 - 2014/10

N2 - We have created Aurorasaurus, a website, a mobile application and a scientific tool that allows a community of users to better predict sightings of the aurora borealis. We focus on the aurora borealis as a rare and unpredictable event (as a proxy for a natural disaster), as it is in the middle latitudes, highly populated areas in North American and Europe. In the northern half of the continental United States the aurora may be visible once or twice per year. In the Southern half, perhaps only once every 20 years, especially during a solar maximum. We feel that the similarities between natural disaster occurrence and auroral occurrence can offer a chance for researchers to test elements of an Early Warning System. The years around 2014 are the latest solar maximum recurring on an eleven-year solar cycle. Now is the time when aurora is more likely over populated areas, and this is the first solar maximum with social media, an unprecedented opportunity to engage the public, the scientific community, and the media. Space weather scientists have only coarse means to predict where the aurora will occur. Forecasts derived from state-of-the-solar wind models and satellite-based observations of the Sun estimate the arrival of the coronal mass ejection.

AB - We have created Aurorasaurus, a website, a mobile application and a scientific tool that allows a community of users to better predict sightings of the aurora borealis. We focus on the aurora borealis as a rare and unpredictable event (as a proxy for a natural disaster), as it is in the middle latitudes, highly populated areas in North American and Europe. In the northern half of the continental United States the aurora may be visible once or twice per year. In the Southern half, perhaps only once every 20 years, especially during a solar maximum. We feel that the similarities between natural disaster occurrence and auroral occurrence can offer a chance for researchers to test elements of an Early Warning System. The years around 2014 are the latest solar maximum recurring on an eleven-year solar cycle. Now is the time when aurora is more likely over populated areas, and this is the first solar maximum with social media, an unprecedented opportunity to engage the public, the scientific community, and the media. Space weather scientists have only coarse means to predict where the aurora will occur. Forecasts derived from state-of-the-solar wind models and satellite-based observations of the Sun estimate the arrival of the coronal mass ejection.

U2 - 10.13140/2.1.4865.0563

DO - 10.13140/2.1.4865.0563

M3 - Conference paper

ER -