This research was supported by NSF Grant AGS-1160737 and the NCAR 2016 SIParCS internship program. The authors would like to gratefully acknowledge the support of ASU LightWorks and the Navy Neptune program. The authors would also like to thank Richard Loft for his valuable inputs and suggestions during the Meteo-AR application development.
FOR FURTHER READING
Aragon, C. R., and K. R. Long, 2005: Airflow hazard visualization for helicopter pilots: Flight simulation study results. Annual Forum Proc.—American Helicopter Society, 61, 1–17.
Cherukuru, N., R. Calhoun, M. Lehner, S. W. Hoch, and C. Whiteman, 2015: Instrument configuration for dual-doppler lidar coplanar scans: METCRAX II. J. Appl. Remote Sens., 9, doi:10.1117/1.JRS.9.096090.
Heuveline, V., S. Ritterbusch, and S. Ronnas, 2013: Augmented reality for urban simulation visualization. Int. J. Adv. Syst. Meas., 6, 26–39.
Klein, G., and D. Murray, 2007: Parallel tracking and mapping for small AR workspaces. Mixed and Augmented Reality, ISMAR 2007. 6th IEEE and ACM International Symp., 225–234.
Lehner, M., and Coauthors, 2016: The METCRAX II field experiment: A study of downslope windstorm-type flows in Arizona’s Meteor Crater. Bull. Amer. Meteor. Soc., 97, 217–235, doi:10.1175/BAMS-D-14-00238.1.
Nurminen, A., E. Kruijff, and E. Veas, 2011: HYDROSYS–A mixed reality platform for on-site visualization of environmental data. Web Wireless Geogr. Inf. Syst., 6574, 159–175, doi:10.1007/978-3-642-19173-2_13.
PTC Inc., 2016: Vuforia developer portal. Accessed 2 June 2016. [Available online at https://developer.vuforia.com.]
Unity Technologies, 2016: Unity download page. Accessed 2 June 2016. [Available online at https://unity3d.com/get-unity.]