Standard

Statistical analysis of seismic images of fault zones on the base of fault facial model. / Merzlikina, A. S.; Bibik, A. N.; Kolyukhin, D. R. и др.

Saint Petersburg 2018: Innovations in Geosciences � Time for Breakthrough. European Association of Geoscientists and Engineers, EAGE, 2018. 44423 (Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough).

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференциинаучнаяРецензирование

Harvard

Merzlikina, AS, Bibik, AN, Kolyukhin, DR, Lisitsa, VV, Protasov, MI, Qu, D, Reshetova, GV, Tveranger, J, Tcheverda, VA & Vishnevsky, DM 2018, Statistical analysis of seismic images of fault zones on the base of fault facial model. в Saint Petersburg 2018: Innovations in Geosciences � Time for Breakthrough., 44423, Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough, European Association of Geoscientists and Engineers, EAGE, 8th Saint Petersburg International Conference and Exhibition: Innovations in Geosciences - Time for Breakthrough, Saint Petersburg, Российская Федерация, 09.04.2018.

APA

Merzlikina, A. S., Bibik, A. N., Kolyukhin, D. R., Lisitsa, V. V., Protasov, M. I., Qu, D., Reshetova, G. V., Tveranger, J., Tcheverda, V. A., & Vishnevsky, D. M. (2018). Statistical analysis of seismic images of fault zones on the base of fault facial model. в Saint Petersburg 2018: Innovations in Geosciences � Time for Breakthrough [44423] (Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough). European Association of Geoscientists and Engineers, EAGE.

Vancouver

Merzlikina AS, Bibik AN, Kolyukhin DR, Lisitsa VV, Protasov MI, Qu D и др. Statistical analysis of seismic images of fault zones on the base of fault facial model. в Saint Petersburg 2018: Innovations in Geosciences � Time for Breakthrough. European Association of Geoscientists and Engineers, EAGE. 2018. 44423. (Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough).

Author

Merzlikina, A. S. ; Bibik, A. N. ; Kolyukhin, D. R. и др. / Statistical analysis of seismic images of fault zones on the base of fault facial model. Saint Petersburg 2018: Innovations in Geosciences � Time for Breakthrough. European Association of Geoscientists and Engineers, EAGE, 2018. (Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough).

BibTeX

@inproceedings{0007b1c6c53148218801fce3922928f2,
title = "Statistical analysis of seismic images of fault zones on the base of fault facial model",
abstract = "Interpretation of seismic responses from subsurface fault zones is hampered by the fact that the geological structure and property distributions of fault zones can generally not be directly observed. This shortcoming curtails the use of seismic data for characterizing internal structure and properties of fault zones, and has instead promoted the use of interpretation techniques which tend to simplify actual structural complexity by rendering faults as lines and planes rather than volumes of deformed rock. Facilitating correlation of rock properties and seismic images of fault zones would enable active use of these images for interpreting fault zones, which in turn would improve our ability to assess the impact of fault zones on subsurface fluid flow. The present study employs a combination of 3D fault zones models, based on empirical data, and 2D forward seismic modeling to investigate the link between fault zone properties and seismic response. A comparison of spatial statistics from the geological models and the seismic images was carried out to study how well seismic images render the modelled geological features. Our results show the feasibility of extracting information about fault zone structures from seismic data by the methods employed.",
author = "Merzlikina, {A. S.} and Bibik, {A. N.} and Kolyukhin, {D. R.} and Lisitsa, {V. V.} and Protasov, {M. I.} and D. Qu and Reshetova, {G. V.} and J. Tveranger and Tcheverda, {V. A.} and Vishnevsky, {D. M.}",
year = "2018",
month = apr,
language = "English",
series = "Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough",
publisher = "European Association of Geoscientists and Engineers, EAGE",
booktitle = "Saint Petersburg 2018",
note = "8th Saint Petersburg International Conference and Exhibition: Innovations in Geosciences - Time for Breakthrough ; Conference date: 09-04-2018 Through 12-04-2018",

}

RIS

TY - GEN

T1 - Statistical analysis of seismic images of fault zones on the base of fault facial model

AU - Merzlikina, A. S.

AU - Bibik, A. N.

AU - Kolyukhin, D. R.

AU - Lisitsa, V. V.

AU - Protasov, M. I.

AU - Qu, D.

AU - Reshetova, G. V.

AU - Tveranger, J.

AU - Tcheverda, V. A.

AU - Vishnevsky, D. M.

PY - 2018/4

Y1 - 2018/4

N2 - Interpretation of seismic responses from subsurface fault zones is hampered by the fact that the geological structure and property distributions of fault zones can generally not be directly observed. This shortcoming curtails the use of seismic data for characterizing internal structure and properties of fault zones, and has instead promoted the use of interpretation techniques which tend to simplify actual structural complexity by rendering faults as lines and planes rather than volumes of deformed rock. Facilitating correlation of rock properties and seismic images of fault zones would enable active use of these images for interpreting fault zones, which in turn would improve our ability to assess the impact of fault zones on subsurface fluid flow. The present study employs a combination of 3D fault zones models, based on empirical data, and 2D forward seismic modeling to investigate the link between fault zone properties and seismic response. A comparison of spatial statistics from the geological models and the seismic images was carried out to study how well seismic images render the modelled geological features. Our results show the feasibility of extracting information about fault zone structures from seismic data by the methods employed.

AB - Interpretation of seismic responses from subsurface fault zones is hampered by the fact that the geological structure and property distributions of fault zones can generally not be directly observed. This shortcoming curtails the use of seismic data for characterizing internal structure and properties of fault zones, and has instead promoted the use of interpretation techniques which tend to simplify actual structural complexity by rendering faults as lines and planes rather than volumes of deformed rock. Facilitating correlation of rock properties and seismic images of fault zones would enable active use of these images for interpreting fault zones, which in turn would improve our ability to assess the impact of fault zones on subsurface fluid flow. The present study employs a combination of 3D fault zones models, based on empirical data, and 2D forward seismic modeling to investigate the link between fault zone properties and seismic response. A comparison of spatial statistics from the geological models and the seismic images was carried out to study how well seismic images render the modelled geological features. Our results show the feasibility of extracting information about fault zone structures from seismic data by the methods employed.

UR - http://www.scopus.com/inward/record.url?scp=85050152015&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85050152015

T3 - Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough

BT - Saint Petersburg 2018

PB - European Association of Geoscientists and Engineers, EAGE

T2 - 8th Saint Petersburg International Conference and Exhibition: Innovations in Geosciences - Time for Breakthrough

Y2 - 9 April 2018 through 12 April 2018

ER -

ID: 25774447