Edinburgh Research Explorer

Illumination Geometry and Flying Height Influence Surface Reflectance and NDVI Derived from Multispectral UAS Imagery

Research output: Contribution to journalArticle

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Illumination Geometry and Flying Height Influence Surface Reflectance and NDVI Derived from Multispectral UAS Imagery. / Stow, Daniel; Nichol, Caroline; Wade, Thomas; Assmann, Jakob; Simpson, Gillian; Helfter, Carole.

In: Drones, 08.07.2019, p. 1.

Research output: Contribution to journalArticle

Harvard

Stow, D, Nichol, C, Wade, T, Assmann, J, Simpson, G & Helfter, C 2019, 'Illumination Geometry and Flying Height Influence Surface Reflectance and NDVI Derived from Multispectral UAS Imagery', Drones, pp. 1. https://doi.org/10.3390/drones3030055

APA

Stow, D., Nichol, C., Wade, T., Assmann, J., Simpson, G., & Helfter, C. (2019). Illumination Geometry and Flying Height Influence Surface Reflectance and NDVI Derived from Multispectral UAS Imagery. Drones, 1. https://doi.org/10.3390/drones3030055

Vancouver

Stow D, Nichol C, Wade T, Assmann J, Simpson G, Helfter C. Illumination Geometry and Flying Height Influence Surface Reflectance and NDVI Derived from Multispectral UAS Imagery. Drones. 2019 Jul 8;1. https://doi.org/10.3390/drones3030055

Author

Stow, Daniel ; Nichol, Caroline ; Wade, Thomas ; Assmann, Jakob ; Simpson, Gillian ; Helfter, Carole. / Illumination Geometry and Flying Height Influence Surface Reflectance and NDVI Derived from Multispectral UAS Imagery. In: Drones. 2019 ; pp. 1.