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References

Ai, M., Hu, Q., Li, J., Wang, M., Yuan, H., and Wang, S., 2015. A Robust Photogrammetric Processing Method of Low-Altitude UAV Images. Remote Sensing, 7 (3), 2302–2333.

Candiago, S., Remondino, F., De Giglio, M., Dubbini, M., and Gattelli, M., 2015. Evaluating Multispectral Images and Vegetation Indices for Precision Farming Applications from UAV Images. Remote Sensing, 7 (4), 4026–4047.

Hernandez-Lopez, D., Felipe-Garcia, B., Gonzalez-Aguilera, D., and Arias-Perez, B., 2013. An Automatic Approach to UAV Flight Planning and Control for Photogrammetric Applications. Photogrammetric Engineering & Remote Sensing, 79 (1), 87–98.

Herwitz, S.R., Johnson, L.F., Dunagan, S.E., Higgins, R.G., Sullivan, D. V, Zheng, J., Lobitz, B.M., Leung, J.G., Gallmeyer, B.A., Aoyagi, M., Slye, R.E., and Brass, J.A., 2004. Imaging from an unmanned aerial vehicle: agricultural surveillance and decision support. Computers and Electronics in Agriculture, 44 (1), 49–61.

Mangiameli, M., Muscato, G., Mussumeci, G., and Milazzo, C., 2013. A GIS application for UAV flight planning. IFAC Proceedings Volumes, 46 (30), 147–151.

Mesas-Carrascosa, F.-J., Torres-Sánchez, J., Clavero-Rumbao, I., García-Ferrer, A., Peña, J.-M., Borra-Serrano, I., and López-Granados, F., 2015. Assessing Optimal Flight Parameters for Generating Accurate Multispectral Orthomosaicks by UAV to Support Site-Specific Crop Management. Remote Sensing, 7 (10), 12793–12814.

Nebiker, S., Lack, N., Abächerli, M., and Läderach, S., 2016. Light-Weight Multispectral Uav Sensors and Their Capabilities for Predicting Grain Yield and Detecting Plant Diseases. ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 963–970.

Qin, R., 2014. An Object-Based Hierarchical Method for Change Detection Using Unmanned Aerial Vehicle Images. Remote Sensing, 6 (9), 7911–7932.

Rosnell, T. and Honkavaara, E., 2012. Point Cloud Generation from Aerial Image Data Acquired by a Quadrocopter Type Micro Unmanned Aerial Vehicle and a Digital Still Camera. Sensors, 12 (1), 453.

Spraying, R.P., 2002. Commercial applications of UAVs in Japanese agriculture.

Turner, D., Lucieer, A., and Wallace, L., 2014. Direct Georeferencing of Ultrahigh-Resolution UAV Imagery. IEEE Transactions on Geoscience and Remote Sensing, 52 (5), 2738–2745.

Turner, D., Lucieer, A., and Watson, C., 2012. An Automated Technique for Generating Georectified Mosaics from Ultra-High Resolution Unmanned Aerial Vehicle (UAV) Imagery, Based on Structure from Motion (SfM) Point Clouds. Remote Sensing, 4 (12), 1392–1410.

Watts, A.C., Ambrosia, V.G., and Hinkley, E.A., 2012. Unmanned Aircraft Systems in Remote Sensing and Scientific Research: Classification and Considerations of Use. Remote Sensing, 4 (12), 1671–1692.