Basic kinematic analysis of rock slope using terrestrial 3D laser scanning on the M-22 highroad pilot site
Authorized Users Only
2013
Authors
Marjanović, MilošAbolmasov, Biljana
Đurić, Uroš
Zečević, Snežana
Šušić, Vladimir
Contributors
Kwasniewski, MarekConference object (Published version)
,
Taylor & Francis Group, London
Metadata
Show full item recordAbstract
Terrestrial laser scanning has propelled recent advancements in rock slope engineering. Building models with millions of points to discretize an actual slope has provided resolutions which empower computerbased analysis/measurements of rock slopes as a supplement/substitute for conventional data acquisition. Herein, we are following-up such trends at a pilot site on the M-22 highroad near Ljig (Serbia). The site is composed of stratified Cretaceous flysch sediments, traversed by several joint sets, making a convenient setting for potential failures. Prior to the kinematic analysis, modeling of the 3D surface has been performed on 1 cm resolution point
cloud, obtained by Leica Scan Station 2. The 3D surface model was then mapped for the planar discontinuities, forwarded to the kinematic analysis for planar, wedge and toppling failures. The analysis matches with previous findings, indicating that the most dominant failure type is a planar slide, showing that proposed methodology yields ...reliable and concurrent results.
Keywords:
laser / scanning / Ljig / geology / lasersko / skeniranje / geotehnika / geologijaSource:
Proceedings of the EUROCK 2013 – Rock mechanics for resources, Energy and Environment, 23-26. september 2013., Wroclaw, Poland, 2013, 2, 1, 679-683Publisher:
- Taylor & Francis Group, London
Funding / projects:
- The application of GNSS and LIDAR technology for infrastructure facilities and terrain stability monitoring (RS-MESTD-Technological Development (TD or TR)-36009)
Institution/Community
GraFarTY - CONF AU - Marjanović, Miloš AU - Abolmasov, Biljana AU - Đurić, Uroš AU - Zečević, Snežana AU - Šušić, Vladimir PY - 2013 UR - https://grafar.grf.bg.ac.rs/handle/123456789/1917 AB - Terrestrial laser scanning has propelled recent advancements in rock slope engineering. Building models with millions of points to discretize an actual slope has provided resolutions which empower computerbased analysis/measurements of rock slopes as a supplement/substitute for conventional data acquisition. Herein, we are following-up such trends at a pilot site on the M-22 highroad near Ljig (Serbia). The site is composed of stratified Cretaceous flysch sediments, traversed by several joint sets, making a convenient setting for potential failures. Prior to the kinematic analysis, modeling of the 3D surface has been performed on 1 cm resolution point cloud, obtained by Leica Scan Station 2. The 3D surface model was then mapped for the planar discontinuities, forwarded to the kinematic analysis for planar, wedge and toppling failures. The analysis matches with previous findings, indicating that the most dominant failure type is a planar slide, showing that proposed methodology yields reliable and concurrent results. PB - Taylor & Francis Group, London C3 - Proceedings of the EUROCK 2013 – Rock mechanics for resources, Energy and Environment, 23-26. september 2013., Wroclaw, Poland T1 - Basic kinematic analysis of rock slope using terrestrial 3D laser scanning on the M-22 highroad pilot site EP - 683 IS - 1 SP - 679 VL - 2 UR - https://hdl.handle.net/21.15107/rcub_grafar_1917 ER -
@conference{ author = "Marjanović, Miloš and Abolmasov, Biljana and Đurić, Uroš and Zečević, Snežana and Šušić, Vladimir", year = "2013", abstract = "Terrestrial laser scanning has propelled recent advancements in rock slope engineering. Building models with millions of points to discretize an actual slope has provided resolutions which empower computerbased analysis/measurements of rock slopes as a supplement/substitute for conventional data acquisition. Herein, we are following-up such trends at a pilot site on the M-22 highroad near Ljig (Serbia). The site is composed of stratified Cretaceous flysch sediments, traversed by several joint sets, making a convenient setting for potential failures. Prior to the kinematic analysis, modeling of the 3D surface has been performed on 1 cm resolution point cloud, obtained by Leica Scan Station 2. The 3D surface model was then mapped for the planar discontinuities, forwarded to the kinematic analysis for planar, wedge and toppling failures. The analysis matches with previous findings, indicating that the most dominant failure type is a planar slide, showing that proposed methodology yields reliable and concurrent results.", publisher = "Taylor & Francis Group, London", journal = "Proceedings of the EUROCK 2013 – Rock mechanics for resources, Energy and Environment, 23-26. september 2013., Wroclaw, Poland", title = "Basic kinematic analysis of rock slope using terrestrial 3D laser scanning on the M-22 highroad pilot site", pages = "683-679", number = "1", volume = "2", url = "https://hdl.handle.net/21.15107/rcub_grafar_1917" }
Marjanović, M., Abolmasov, B., Đurić, U., Zečević, S.,& Šušić, V.. (2013). Basic kinematic analysis of rock slope using terrestrial 3D laser scanning on the M-22 highroad pilot site. in Proceedings of the EUROCK 2013 – Rock mechanics for resources, Energy and Environment, 23-26. september 2013., Wroclaw, Poland Taylor & Francis Group, London., 2(1), 679-683. https://hdl.handle.net/21.15107/rcub_grafar_1917
Marjanović M, Abolmasov B, Đurić U, Zečević S, Šušić V. Basic kinematic analysis of rock slope using terrestrial 3D laser scanning on the M-22 highroad pilot site. in Proceedings of the EUROCK 2013 – Rock mechanics for resources, Energy and Environment, 23-26. september 2013., Wroclaw, Poland. 2013;2(1):679-683. https://hdl.handle.net/21.15107/rcub_grafar_1917 .
Marjanović, Miloš, Abolmasov, Biljana, Đurić, Uroš, Zečević, Snežana, Šušić, Vladimir, "Basic kinematic analysis of rock slope using terrestrial 3D laser scanning on the M-22 highroad pilot site" in Proceedings of the EUROCK 2013 – Rock mechanics for resources, Energy and Environment, 23-26. september 2013., Wroclaw, Poland, 2, no. 1 (2013):679-683, https://hdl.handle.net/21.15107/rcub_grafar_1917 .