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A Cellular Automata Model for Flow-like Landslides with Numerical Simulations of Subaerial and Subaqueous Cases

dc.contributor.authorAvolio, Maria Vittoria
dc.contributor.authorLupiano, Valeria
dc.contributor.authorMazzanti, Paolo
dc.contributor.authorDi Gregorio, Salvatore
dc.contributor.editorWohlgemuth, Volker
dc.contributor.editorPage, Bernd
dc.contributor.editorVoigt, Kristina
dc.date.accessioned2019-09-16T03:15:39Z
dc.date.available2019-09-16T03:15:39Z
dc.date.issued2009
dc.description.abstractNumerical modelling is a major challenge in the prevention of risks related to the occurrence of subaerial and subaqueous landslides. SCIDDICA-SS2 and SCIDDICA-SS2blocks are Macroscopic Cellular Automata models, developed for the simulations of combined subaerial-subaqueous flow-like landslides. SCIDDICA-SS2 was firstly validated on the 1997 subaerial subaqueous debris flow at Lake Albano (Rome, Italy). This paper outlines the last version of the model, slightly improved and which was extended in order to simulate landslide characterized by large blocks inside the main landslide debris. The paper presents applications of the model to a completely submarine landslide, occurred between November 2007 and September 2008, in the nearshore of Bagnara Calabra town (Italy) and to the catastrophic M. Pacì rock-avalanche occurred on February 6, 1783 (Scilla, Italy). Simulation results of Bagnara Calabra submarine landslide by SCIDDICA-SS2 show a strong convergence between the real and simulated areas affected by the event. Furthermore, numerical analyses by SCIDDICA-SS2blocks demonstrate the ability of the model to simulate rock avalanches characterized by large blocks.de
dc.description.urihttp://enviroinfo.eu/sites/default/files/pdfs/vol121/0137.pdfde
dc.identifier.urihttps://dl.gi.de/handle/20.500.12116/26240
dc.publisherShaker Verlag
dc.relation.ispartofEnvironmental Informatics and Industrial Environmental Protection: Concepts, Methods and Tools
dc.relation.ispartofseriesEnviroInfo
dc.titleA Cellular Automata Model for Flow-like Landslides with Numerical Simulations of Subaerial and Subaqueous Casesde
dc.typeText/Conference Paper
gi.citation.publisherPlaceAachen
gi.conference.date2009
gi.conference.locationBerlin
gi.conference.sessiontitleEnvironmental Simulation

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