Mathematic Interpolation Methods - Support for an Efficient 3D Modeling of Landslides in the Context of Displacements Monitoring.

Autor: Alionescu, Adrian, Herban, Ioan Sorin, Vîlceanu, Clara-Beatrice, Muşat, Cosmin Constantin
Předmět:
Zdroj: AIP Conference Proceedings; 2015, Vol. 1648 Issue 1, p1-4, 4p, 3 Color Photographs
Abstrakt: Threats to our environment represent a clear danger in the context of climate change, which is part of the "Global Change", and it is obvious that action is needed right now to protect our quality of life, particularly for those most vulnerable to health threats from environmental and technological disasters. Therefore, our top priority should be to avoid human and material losses. The security area is not only defined by disaster management, but by a wide variety of events that could affect the environment and the population's health. Following the rapid development of urban areas, a present tendency is represented by the study of those factors that place some areas in categories with high risk for natural and anthropic hazard such as landslides. This paper highlights the advantages of using state-of-the-art geodetic technology and specialized software in the study of landslides with a view of generating 3D models of the affected area. The 3D modeling process based on triangulation is a very elaborate one and the authors make comparisons between 2 surface models of a landslide using specialized software. The models used for comparison are obtained from a monitoring process of the landslide in question, which involved conducting periodic cycles of surveying. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index