Using UAVs to Conduct Student-led Research Projects
Abstract
Recreational drones can inspire students to initiate research projects. These "toys" have a low cost (<$100), low weight (< 250 g, so do not require FAA registration), and an ability to carry small instrument packages, making them an ideal platform for conducting innovative investigations. This session describes an initiative by the Federation of Earth Science Information Partners (ESIP) Education Committee to compile and distribute a free e-book that will encourage learners to use drones for science investigations. Our goal is to inspire learners to use UAVs to carry scientific instruments and/or capture imagery to conduct local-scale investigations. Experiments such as discovering their vehicle's maximum payload help learners understand what sensors they can use (or build) to conduct research. The e-book will encourage learners to practice UAV civility and safety through a pre-flight checklist and flying guidelines, and to consider science objectives and flight team roles in performing investigations. Activities also advocate for robust data and metadata-collection practices. Suggested activities encompass repeat photography investigations as well as engineering design skills such as designing a camera mount to obtain nadir or oblique imagery. Learners can also move to more sophisticated research using photogrammetric skills such as taking overlapping photographs to create 3D structure from motion (SfM) models. To encourage the use of onboard sensors, the team worked with an engineer to build a 33-gram prototype environmental logger called SABEL (Shelley [Olds] and Bob [Ellis]'s Environmental Logger). Assembled on an Arduino board, SABEL collects temperature, humidity, and GPS position. This presentation will provide examples of student-led investigations, instructions for building the SABEL sensor package, and the status of the new e-book compilation of student-focused activities using recreational drones to pursue science, math, engineering, and technology research investigations.
- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2016
- Bibcode:
- 2016AGUFMNH11B1721O
- Keywords:
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- 9805 Instruments useful in three or more fields;
- GENERAL OR MISCELLANEOUSDE: 9820 Techniques applicable in three or more fields;
- GENERAL OR MISCELLANEOUSDE: 4333 Disaster risk analysis and assessment;
- NATURAL HAZARDSDE: 4339 Disaster mitigation;
- NATURAL HAZARDS