Vyuziti termalni kamery na bezpilotnim letounu pri vyzkumu sesuvneho uzemi v obci Brezno u Postoloprt

Casagli, N. – Frodella, W. – Morelli, S. – Tofani, V. – Ciampalini, A. – Intrieri, E. – Lu, P. (2017): Spaceborne, UAV and ground-based remote sensing techniques for landslide mapping, monitoring and early warning. – Geoenvir. Disasters 4 (1), 1–23.

Frodella, W. – Gigli, G. – Morelli, S. – Lombardi, L. – Casagli, N. (2017): Landslide mapping and characterization through infrared thermography (IRT): suggestions for a method- ological approach from some case studies. – Remote Sens. 9 (12), 1281.

Lucieer, A. – Jong, S. M. D. – Turner, D. (2014): Mapping landslide displacements using Structure from Motion (Sfm) and image correlation of multi-temporal UAV photography. – Progress in Phys. Geogr.: Earth and Envir. 38 (1), 97–116.

Morello, R. (2018): Potentialities and limitations of thermography to assess landslide risk. – Measurement 116, 658–668.

Novotný, J. (2014): Engineering Geological Models – Some Examples of Use for Landslide Assessments. In: Lollino, G. et al., ed.: Engineering Geology for Society and Territory – Volume 7, 11–15. – Springer-Verlag.

Spampinato, L. – Calvari, S. – Oppenheimer, C. – Boschi, E. (2011). Volcano surveillance using infrared cameras. – Earth-Sci. Rev. 106 (1), 63–91.

Titus, T. N. – Wynne, J. J. – Jhabvala, M. D. – Cabrol, N. A. (2022): Using near-surface temperature data to vicariously calibrate high-resolution thermal infrared imagery and estimate physical surface properties. – MethodsX 9, 101644.

Van Wijk, W. R. – Scholte Ubing, D. W. (1963): Radiation. In: Van Wijk, W. R., ed.: Physics of plant environment, 62–101. – North-Holland Publishing Co. Amsterdam.