Pareti verticali e LiDAR: esperienze dalle Dolomiti

Autori

  • Fabio Remondino 3D Optical Metrology FBK Trento
  • G. Agugiaro 3D Optical Metrology FBK Trento
  • A. Rizzi 3D Optical Metrology FBK Trento
  • Francesco Zucca Dipartimento di Scienze della Terra Università  di Pavia

Parole chiave:

LiDAR, DEM

Abstract

Dolomites in 3D thanks to laser scanner

Peak3D is the project created to return in three dimensions the verticality of the mountains. In this project 8 companies and institutions are involved : The University of Pavia, The Foundation Bruno Kessler, The University of Padua, The University of Milan Bicocca, Codevintec, Helica, Gexcel and Protocube. Peak3D has dedicated itself to the Dolomites detected by the laser scanner. The data obtained allow many uses.

Riferimenti bibliografici

Boehm J., Haala N. (2005), Efficient integration of aerial and terrestrial laser data for virtual city modeling using lasermaps. Int. Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 36(3/W19), ISPRS Workshop Laser scanning, Enschede, the Netherlands.

Fazzini M., Panizza M. (2006), I crolli nelle Dolomiti orientali nell'estate 2004 in Salgaro (ed.), Scritti in onore di R. Bernardi, Bologna, Patron, pp. 247-257.

Franceschi M. (2008), Application of terrestrial laser scanner to cyclostratigraphy, Tesi di Dottorato, Università di Padova.

Gruber S., Hoelzle M., Haeberli W. (2004), Permafrost

thaw and destabilization of Alpine rock walls in the hot summer of 2003, Geophysical Research Letters, vol. 31, L13504, 4.

Gruen A., Murai S. (2002), High-resolution 3D modelling and visualization of Mount Everest, ISPRS Journal of Photogrammetry & Remote Sensing, 57, pp. 102-113.

Panizza M. (2009), Geomorphodiversity of the Dolomites and some remarks on recent rockfalls. Proceedings of the International Conference ‘Landslide Processes', 6-7 February 2009, Strasbourg, France.

Ruiz A., Kornus W., Talaya J., Colomer J.L.(2004), Terrain modeling in an extremely steep mountain: a combination of airborne and terrestrial LiDAR. Int. Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 35(B3), ISPRS Congress 2004, Istanbul, Turkey.

Squarzoni C., Teza G., Galgaro A., Carraro C., Bucceri N. (2009), Terrestrial and airborne laser scanner techniques applied to rock slope instability analysis: the case of Einser-Cima Una (Sexten Dolomites, Italy), Geophysical Research Abstracts, Vol. 11, EGU2009-13569. Sturzenegger, M., Stead, D., Froese, C., Moreno, F. & Jaboyedoff, M. (2007), Ground-based and airborne LiDAR for structural mapping of a large landslide, the Frank Slide. Rock Mechanics: Meeting Society's Challenges and Demands.

Svab E., Renzi G. (2009), Tre Cime - Classic and modern routes, Versante Sud Edizioni. Szekely B., Molnar G., Roncat A., Lehner H., Gaisecker Th., Drexel P. (2009), Integrating airborne and terrestrial laser scanning data to monitor active landsliding, Geophysical Research Abstracts, Vol. 11, EGU2009-3557-2.

##submission.downloads##

Pubblicato

2010-02-28

Come citare

Remondino, F., Agugiaro, G., Rizzi, A., & Zucca, F. (2010). Pareti verticali e LiDAR: esperienze dalle Dolomiti. GEOmedia, 14(5). Recuperato da https://ojs.mediageo.it/index.php/GEOmedia/article/view/369

Fascicolo

Sezione

FOCUS

Puoi leggere altri articoli dello stesso autore/i