Identity statement area
Reference TypeConference Proceedings
Last Update2018:
Metadata Last Update2020: administrator
Citation KeyInagakiVargPesc:2018:3DMoTu
Title3D modeling of turbiditic channels within lobes from 2D models
DateOct. 29 - Nov. 1, 2018
Access Date2020, Dec. 05
Number of Files1
Size1039 KiB
Context area
Author1 Inagaki, Suemy
2 Vargas, Viviana
3 Pesco, Sinésio
Affiliation1 PUC-Rio
2 PUC-Rio
3 PUC-Rio
EditorRoss, Arun
Gastal, Eduardo S. L.
Jorge, Joaquim A.
Queiroz, Ricardo L. de
Minetto, Rodrigo
Sarkar, Sudeep
Papa, João Paulo
Oliveira, Manuel M.
Arbeláez, Pablo
Mery, Domingo
Oliveira, Maria Cristina Ferreira de
Spina, Thiago Vallin
Mendes, Caroline Mazetto
Costa, Henrique Sérgio Gutierrez
Mejail, Marta Estela
Geus, Klaus de
Scheer, Sergio
Conference NameConference on Graphics, Patterns and Images, 31 (SIBGRAPI)
Conference LocationFoz do Iguaçu, PR, Brazil
Book TitleProceedings
PublisherSociedade Brasileira de Computação
Publisher CityPorto Alegre
History2018-10-19 23:57:17 :: -> administrator ::
2018-10-20 09:50:28 :: administrator -> :: 2018
2018-10-21 20:32:07 :: -> administrator :: 2018
2020-02-20 22:06:50 :: administrator -> :: 2018
Content and structure area
Is the master or a copy?is the master
Document Stagecompleted
Document Stagenot transferred
Tertiary TypeUndergraduate Work
KeywordsTurbiditic channel, 3D modeling.
AbstractIn this work we present the 3D modeling of turbiditic channels inside lobes using 2D images obtained through geostatistical multiple-point methods. We are assuming that these images can be interpreted as projections in the xy plane of the phenomenon. The proposed method consists of creating the turbidite lobe using the model proposed in [1]. Then the 2D images of the channels are projected onto the surface of the lobe. Finally, successive erosions of the image are layered and used to approximate the volume to the channel system. This process is of great importance to research and economics due to 90% of the reservoirs found in the Brazilian oil exploration scenario being turbidites as well as hard subjects to study. [2].
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3D_Modeling_of_Turbiditic_Channel_Within_Lobes_From_2D_Models.pdf 21/10/2018 16:44 1.0 MiB
SuemyInagaki_Sibgrapi.pdf 19/10/2018 20:57 1.0 MiB
agreement Directory Content
agreement.html 19/10/2018 20:57 1.2 KiB 
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Target FileWUW_3D_Modeling_Of_Turbiditic_Channel.pdf
Allied materials area
Next Higher Units8JMKD3MGPAW/3RPADUS
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