TY - Generic T1 - The North Dakota Dual Aurora Camera Version 2.0 (NoDDAC2.0), a Platform for Citizen Science and a Use Case for Implementing Best Practices in Open Data and Collaboration T2 - HamSCI Workshop 2023 Y1 - 2023 A1 - Timothy Young A1 - Vincent Ledvina A1 - Elizabeth MacDonald A1 - Laura Brandt A1 - Wayne Barkhouse A1 - Alex Schultz A1 - Cody Payne A1 - Anne Mitchell A1 - Kristian Haugen A1 - Will Shearer A1 - Kerry Hartman A1 - Sasha Sillitti A1 - Michael McCormack A1 - Steve Collins AB -

The North Dakota Dual Aurora Camera (NoDDAC) is an interdisciplinary project created in collaboration with the University of North Dakota (UND), Live Aurora Network, and Aurorasaurus. Aurora cameras provide ground-truth visual data to aurora chasers and scientists but are sparse at midlatitudes (35-55°N). Deploying light-sensitive video and all-sky still cameras at these midlatitudes provides a valuable resource to aurora-chasing communities, as well as amateur radio operators in the auroral zone. In addition, NoDDAC data demonstrate scientific merit, as it can be correlated with radio and ionospheric propagation changes to investigate the connection between optical aurora and radio science. This project is unique; the practices of utilizing dual cameras with consumer-off-the-shelf equipment, emphasizing open data as a responsive community resource and promoting citizen science make NoDDAC an accessible resource benefiting multiple audiences. Since early 2021, NoDDAC has detected hundreds of auroras as well as notable events like STEVEs (Strong Thermal Emission Velocity Enhancement). NoDDAC is stationed at Martens Observatory (48.1°N, 97.6°W), which is operated by the UND Department of Physics and Astrophysics. Live Aurora Network provides weatherproof camera housings and their proprietary IPTimelapse software which allows for remote control of the cameras. This year we present NoDDAC2.0, the next evolution of NoDDAC funded by NASA’s EPSCoR program. NoDDAC2.0 will upgrade the all-sky camera and feature a robust open-data platform to share aurora data with the public and scientists. We outline a strategy to increase the science utility of NoDDAC data, incorporating a citizen science project launching on the Zooniverse platform. We also present plans to integrate NoDDAC data into the AuroraX conjunction finder system so that satellite data can be easily correlated to aurora images. Most importantly, we are collaborating with the Nueta Hidatsa Sahnish College on the Fort Berthold Indian Reservation to install an independent aurora camera system in North Dakota. Not only does this represent a unique collaborative opportunity, but at a separation distance of 300 miles from Martens Observatory, this second camera will allow us to explore research questions relating to the precise location, height, and spatial extent of certain auroral phenomena.

JF - HamSCI Workshop 2023 PB - HamSCI CY - Scranton, PA ER - TY - JOUR T1 - Amateur Radio: An Integral Tool for Atmospheric, Ionospheric, and Space Physics Research and Operations JF - White Paper Submitted to the National Academy of Sciences Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 Y1 - 2022 A1 - Nathaniel A. Frissell A1 - Laura Brandt A1 - Stephen A. Cerwin A1 - Kristina V. Collins A1 - David Kazdan A1 - John Gibbons A1 - William D. Engelke A1 - Rachel M. Frissell A1 - Robert B. Gerzoff A1 - Stephen R. Kaeppler A1 - Vincent Ledvina A1 - William Liles A1 - Michael Lombardi A1 - Elizabeth MacDonald A1 - Francesca Di Mare A1 - Ethan S. Miller A1 - Gareth W. Perry A1 - Jonathan D. Rizzo A1 - Diego F. Sanchez A1 - H. Lawrence Serra A1 - H. Ward Silver A1 - David R. Themens A1 - Mary Lou West ER - TY - JOUR T1 - Fostering Collaborations with the Amateur Radio Community JF - White Paper Submitted to the National Academy of Sciences Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 Y1 - 2022 A1 - Nathaniel A. Frissell A1 - Laura Brandt A1 - Stephen A. Cerwin A1 - Kristina V. Collins A1 - Timothy J. Duffy A1 - David Kazdan A1 - John Gibbons A1 - William D. Engelke A1 - Rachel M. Frissell A1 - Robert B. Gerzoff A1 - Stephen R. Kaeppler A1 - Vincent Ledvina A1 - William Liles A1 - Elizabeth MacDonald A1 - Gareth W. Perry A1 - Jonathan D. Rizzo A1 - Diego F. Sanchez A1 - H. Lawrence Serra A1 - H. Ward Silver A1 - Tamitha Mulligan Skov A1 - Mary Lou West ER - TY - Generic T1 - The North Dakota Dual Aurora Camera (NoDDAC), A Student-led Citizen Science Project: Data Showcase, Future Developments, and Scientific Potential T2 - HamSCI Workshop 2022 Y1 - 2022 A1 - Vincent Ledvina A1 - Elizabeth MacDonald A1 - Laura Brandt A1 - Michael McCormack A1 - Steve Collins A1 - Wayne Barkhouse A1 - Timothy Young AB -

The North Dakota Dual Aurora Camera (NoDDAC) is a student-led project in collaboration with the University of North Dakota (UND), Live Aurora Network, and Aurorasaurus. Aurora cameras provide ground-truth visual data to aurora chasers and scientists, but are sparse at midlatitudes. Deploying a light-sensitive video camera and allsky still camera in these areas provides a valuable resource to aurora-chasing communities, including ham radio operators in the auroral zone, and demonstrates scientific merit. For example, the analysis of rare phenomena benefits from observations at multiple locations. In addition, NoDDAC data can be correlated with radio and ionospheric propagation changes, as well as geomagnetic activity, to investigate the connection between optical aurora and radio science. This project is unique; utilizing dual cameras with COTS equipment, emphasizing open data as a responsive community resource, and promoting citizen science make it an accessible resource benefing multiple audiences. Since early 2021, NoDDAC has detected aurora on more than 20 occasions, as well as unusual events like overhead auroras, STEVEs, and noctilucent clouds. 

NoDDAC is stationed at Martens Observatory (48.1°N), which is operated by the UND Department of Physics and Astrophysics. Live Aurora Network housings weatherproof both cameras, and their proprietary IPTimelapse software uploads images to a web server for analysis. The north-facing camera records video, allowing Zooniverse-style citizen science for small auroral features. Live Aurora Network streams both cameras on their website and app. Ultimately, when aurora is detected IPTimelapse will post a clip of the display to @NODDAC_cameras on Twitter. Automated reports will be mapped on Aurorasaurus, alongside citizen scientist observations. Image data are archived according to open source and FAIR data principles. NoDDAC will also look for crossovers with projects such as the Personal Space Weather Station to provide additional ground-based measurements of the space environment. This presentation will reflect on the data captured with NoDDAC and outline a timeline for its future, and open the floor for collaborations with other citizen science efforts.

JF - HamSCI Workshop 2022 PB - HamSCI CY - Huntsville, AL ER - TY - CONF T1 - HamSCI Campaign Co-Design (Panel Discussion) T2 - HamSCI Workshop 2021 Y1 - 2021 A1 - Kristina V. Collins A1 - Nathaniel A. Frissell A1 - Philip J. Erickson A1 - Laura Brandt A1 - Elizabeth MacDonald A1 - Michael Black A1 - Gareth Perry JF - HamSCI Workshop 2021 PB - HamSCI CY - Virtual ER - TY - Generic T1 - QRV: Newbie YL Perspectives on Becoming a Ham Citizen Scientist T2 - HamSCI Workshop 2021 Y1 - 2021 A1 - Laura Brandt A1 - Elizabeth MacDonald A1 - Connie Atkisson AB -

An aurora scientist, a teacher, and a museum educator walk into a ham radio class…and end up with more than just their Technician licenses! Dr. Liz MacDonald, founder of the aurora citizen science project Aurorasaurus, approached licensing as a plasma physicist, while 5th grade teacher Connie Atkisson and Laura Brandt, the Aurorasaurus project manager, had little prior experience with physics. The different ways they approached the process in 2020—and their various goals for being licensed—provide useful context for the evolving broader community and for citizen science. Join Liz and Laura in conversation about the surprises they encountered while studying for their licenses, how aurora and amateur radio citizen science can collaborate more closely, and ideas drawn from classroom teaching and museum education that hams can use when reaching out to the general public. 

JF - HamSCI Workshop 2021 PB - HamSCI CY - Scranton, PA (Virtual) ER - TY - CONF T1 - An Aurorasaurus Citizen Science Database of Strong Thermal Emission Velocity Enhancement (STEVE) Observations (ePoster) T2 - HamSCI Workshop 2020 Y1 - 2020 A1 - Michael Hunnekuhl A1 - Elizabeth MacDonald AB -

For many years, amateur aurora observers have reported on unique subauroral aurora or aurora‐like structures which they could not classify at first. Later, these structures also puzzled the scientific community. In 2016 members of the Alberta Aurora Chasers Facebook group introduced the name STEVE for these structures. Very recently in 2018 and 2019, first scientific publications have been published linking these subauroral structures with the subauroral ion drift (SAID). Since then the backronym Strong Thermal Emission Velocity Enhancement is used in the scientific literature for this phenomenon. The underlying ionospheric processes are still not understood in every detail. Although highly likely STEVE observations have been reported sporadically since nearly the end of the Maunder Minimum their specific character had been almost overlooked for a long time until citizen scientists working with Aurorasaurus started to put a closer view on them and contacted the scientific community reaching for answers to all their questions. A freely accessible event list for worldwide image supported amateur STEVE observations was missing for a long time. The presented work is part of a non‐funded volunteer project and has been performed with the aim to fill this gap. STEVE observations posted in Aurora related social media groups but also on aurora observer websites have been analyzed to prepare the list on the basis of data use standards and fair use. The outcome is a list summarizing more than 790 single observations, observations with time for 150 days and 178+ observation days in total. In its current version the event list covers the period January 1999 to December 2019. This presentation gives an overview for the content and development of the list, and briefly summarizes possible analyzes that can be performed based on the content of the event list and how it already supports and furthers the research on the STEVE phenomenon. This work presents an example of how data from citizen scientists can support highly topical space science research.

JF - HamSCI Workshop 2020 PB - HamSCI CY - Scranton, PA ER - TY - CONF T1 - Construction of an Aurora Camera in North Dakota to Aid in Citizen Science and Space Weather Applications (ePoster) T2 - HamSCI Workshop 2020 Y1 - 2020 A1 - Vincent Ledvina A1 - Elizabeth MacDonald A1 - Wayne Barkhouse A1 - Timothy Young AB -

We will present plans for a new student‐built aurora camera integrated with a public university, local astronomy groups, and Aurorasaurus citizen science. Live aurora cameras are crucial tools for avid skywatchers, aurora chasers, and scientists.  Globally there are hundreds of cameras providing nowcast views of aurora strength, yet in low‐latitude areas, especially in the United States, the number of high‐quality, live aurora cameras is extremely limited.  The need for aurora camera coverage in mid‐latitudes is apparent; not only will it be another resource for amateur astronomers and aurora‐watching communities, but the analysis of many transient auroral phenomena such as substorms and STEVEs benefit from multiple geographical observations.  A north‐facing camera will be built near Inkster, North Dakota, on the Martens Observatory location (approximately 48.1oN), broadcasting a public live stream of the night sky while simultaneously offloading images to a storage server.  The Sony a7s2 mirrorless camera, a model employed by other live broadcasts such as the LiveAuroraNetwork, will be used in conjunction with a wide‐aperture lens for maximum light‐gathering ability.   The entire apparatus will be housed in a weatherproof enclosure and internet will be supplied on‐site.  The camera will be integrated with the University of North Dakota’s Astrophysics and Space Studies department and will be a resource for the local astronomy community, the Northern Sky Astronomical Society.  Working with Aurorasaurus, the aurora camera will “tweet” when an aurora is spotted and be shown on the Aurorasaurus auroral oval map along with other citizen scientist observations.  This aurora camera will be a valuable resource for citizen science and will aid scientists in attempting to unravel the mysteries of Earth’s magnetism.

JF - HamSCI Workshop 2020 PB - HamSCI CY - Scranton, PA ER -