Beltramone, L.; De Lucia, V.; Ermini, A.; Innocenti, M.; Silvestri, D.; Rindinella, A.; Ronchitelli, A.; Ricci, S.; Boschin, F.; Salvini, R.
Applying SLAM-Based LiDAR and UAS Technologies to Evaluate the Rock Slope Stability of the Grotta Paglicci Paleolithic Site (Italy). GeoHazards 2024, 5, 457-484.
https://doi.org/10.3390/geohazards5020024
AMA Style
Beltramone L, De Lucia V, Ermini A, Innocenti M, Silvestri D, Rindinella A, Ronchitelli A, Ricci S, Boschin F, Salvini R.
Applying SLAM-Based LiDAR and UAS Technologies to Evaluate the Rock Slope Stability of the Grotta Paglicci Paleolithic Site (Italy). GeoHazards. 2024; 5(2):457-484.
https://doi.org/10.3390/geohazards5020024
Chicago/Turabian Style
Beltramone, Luisa, Vivien De Lucia, Andrea Ermini, Matteo Innocenti, Daniele Silvestri, Andrea Rindinella, Annamaria Ronchitelli, Stefano Ricci, Francesco Boschin, and Riccardo Salvini.
2024. "Applying SLAM-Based LiDAR and UAS Technologies to Evaluate the Rock Slope Stability of the Grotta Paglicci Paleolithic Site (Italy)" GeoHazards 5, no. 2: 457-484.
https://doi.org/10.3390/geohazards5020024
APA Style
Beltramone, L., De Lucia, V., Ermini, A., Innocenti, M., Silvestri, D., Rindinella, A., Ronchitelli, A., Ricci, S., Boschin, F., & Salvini, R.
(2024). Applying SLAM-Based LiDAR and UAS Technologies to Evaluate the Rock Slope Stability of the Grotta Paglicci Paleolithic Site (Italy). GeoHazards, 5(2), 457-484.
https://doi.org/10.3390/geohazards5020024