A method for fitting 3D shapes to real reservoir data
Liliane Wietzerbin and Jean-Laurent Mallet. ( 1992 )
in: 54th EAEG Meeting, pages 76-77, European Association of Geoscientists \& Engineers
Abstract
In the Reservoir Engineering world, simulation of reservoir geometry is a crucial problem for further exploration planification. In the stochastic field, a great deal of methods exists for representing a 3D model of the reservoir, but in most cases, either the data are hardly fitted or the geometrical shape of the geological bodies are hardly discernible ([1]) . We propose a new method for positioning elementary shapes in the reservoir in such a way that all data requirements be respected.
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BibTeX Reference
@inproceedings{wietzerbin:hal-04026268,
abstract = {In the Reservoir Engineering world, simulation of reservoir geometry is a crucial problem for further exploration planification. In the stochastic field, a great deal of methods exists for representing a 3D model of the reservoir, but in most cases, either the data are hardly fitted or the geometrical shape of the geological bodies are hardly discernible ([1]) . We propose a new method for positioning elementary shapes in the reservoir in such a way that all data requirements be respected.},
address = {Paris, France},
author = {Wietzerbin, Liliane and Mallet, Jean-Laurent},
booktitle = {{54th EAEG Meeting}},
doi = {10.3997/2214-4609.201410486},
hal_id = {hal-04026268},
hal_version = {v1},
pages = {76-77},
publisher = {{European Association of Geoscientists \& Engineers}},
title = {{A method for fitting 3D shapes to real reservoir data}},
url = {https://hal.univ-lorraine.fr/hal-04026268},
year = {1992}
}