Soil Deformation Models for Real-Time Simulation: A Hybrid Approach
D. Holz, T. Beer, and T. Kuhlen. VRIPHYS 09: Sixth Workshop on Virtual Reality Interaction and Physical Simulation, page 21-30. Karlsruhe, Germany, Eurographics Association, (November 2009)
Abstract
The simulation of soil deformation in real-time is a challenging task. Realizing the strengths and weaknesses of particle and mesh-based approaches we propose a hybrid model that combines both. Together with an adaptive sampling method, which effectively reduces the number of particles in the simulation, and a selective update technique our method is applicable in real-time VR environments. Furthermore, in order to account for the high degree of dynamics in soil behavior we consider soil as non-homogeneous and account for its degree of compaction. By incorporating soil mechanical formulations in our model and considering several physically plausible parameters the presented method allows for the simulation of soil as the material empirically investigated by civil engineers and soil mechanicians for decades.
%0 Conference Paper
%1 holz2009deformation
%A Holz, Daniel
%A Beer, Thomas
%A Kuhlen, Torsten
%B VRIPHYS 09: Sixth Workshop on Virtual Reality Interaction and Physical Simulation
%C Karlsruhe, Germany
%D 2009
%E Prautzsch, Hartmut
%E Schmitt, Alfred
%E Bender, Jan
%E Teschner, Matthias
%I Eurographics Association
%K deformation hybrid realtime simulation soil
%P 21-30
%T Soil Deformation Models for Real-Time Simulation: A Hybrid Approach
%U https://diglib.eg.org/EG/DL/PE/vriphys/vriphys09/021-030.pdf.abstract.pdf%3binternal&action=action.digitallibrary.ShowPaperAbstract
%X The simulation of soil deformation in real-time is a challenging task. Realizing the strengths and weaknesses of particle and mesh-based approaches we propose a hybrid model that combines both. Together with an adaptive sampling method, which effectively reduces the number of particles in the simulation, and a selective update technique our method is applicable in real-time VR environments. Furthermore, in order to account for the high degree of dynamics in soil behavior we consider soil as non-homogeneous and account for its degree of compaction. By incorporating soil mechanical formulations in our model and considering several physically plausible parameters the presented method allows for the simulation of soil as the material empirically investigated by civil engineers and soil mechanicians for decades.
@inproceedings{holz2009deformation,
abstract = {The simulation of soil deformation in real-time is a challenging task. Realizing the strengths and weaknesses of particle and mesh-based approaches we propose a hybrid model that combines both. Together with an adaptive sampling method, which effectively reduces the number of particles in the simulation, and a selective update technique our method is applicable in real-time VR environments. Furthermore, in order to account for the high degree of dynamics in soil behavior we consider soil as non-homogeneous and account for its degree of compaction. By incorporating soil mechanical formulations in our model and considering several physically plausible parameters the presented method allows for the simulation of soil as the material empirically investigated by civil engineers and soil mechanicians for decades.},
added-at = {2010-01-09T20:54:34.000+0100},
address = {Karlsruhe, Germany},
author = {Holz, Daniel and Beer, Thomas and Kuhlen, Torsten},
biburl = {https://www.bibsonomy.org/bibtex/28043dda6a43f94b05875f73acd7f8a4a/rekamd},
booktitle = {VRIPHYS 09: Sixth Workshop on Virtual Reality Interaction and Physical Simulation},
editor = {Prautzsch, Hartmut and Schmitt, Alfred and Bender, Jan and Teschner, Matthias},
interhash = {5879e428a41e6d5d51f785b08fe91250},
intrahash = {8043dda6a43f94b05875f73acd7f8a4a},
keywords = {deformation hybrid realtime simulation soil},
month = nov,
pages = {21-30},
publisher = {Eurographics Association},
series = {VRIPHYS},
timestamp = {2011-11-03T02:14:29.000+0100},
title = {Soil Deformation Models for Real-Time Simulation: A Hybrid Approach},
url = {https://diglib.eg.org/EG/DL/PE/vriphys/vriphys09/021-030.pdf.abstract.pdf%3binternal&action=action.digitallibrary.ShowPaperAbstract},
year = 2009
}