Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea

Institut for Geovidenskab og Naturforvaltning

Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea. / Lorentzen, Mads C. L.; Bredesen, Kenneth; Smit, Florian W. H.; Hansen, Torsten H.; Nielsen, Lars; Mosegaard, Klaus.

I: Bulletin of the Geological Society of Denmark, Bind 71, 2022, s. 31-50.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Lorentzen, MCL, Bredesen, K, Smit, FWH, Hansen, TH, Nielsen, L & Mosegaard, K 2022, 'Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea', Bulletin of the Geological Society of Denmark, bind 71, s. 31-50. https://doi.org/10.37570/bgsd-2022-71-03

APA

Lorentzen, M. C. L., Bredesen, K., Smit, F. W. H., Hansen, T. H., Nielsen, L., & Mosegaard, K. (2022). Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea. Bulletin of the Geological Society of Denmark, 71, 31-50. https://doi.org/10.37570/bgsd-2022-71-03

Vancouver

Lorentzen MCL, Bredesen K, Smit FWH, Hansen TH, Nielsen L, Mosegaard K. Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea. Bulletin of the Geological Society of Denmark. 2022;71:31-50. https://doi.org/10.37570/bgsd-2022-71-03

Author

Lorentzen, Mads C. L. ; Bredesen, Kenneth ; Smit, Florian W. H. ; Hansen, Torsten H. ; Nielsen, Lars ; Mosegaard, Klaus. / Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea. I: Bulletin of the Geological Society of Denmark. 2022 ; Bind 71. s. 31-50.

Bibtex

@article{11d43fae7c634e56a42809a5d79f886f,

title = "Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea",

abstract = "The mapping of faults provides essential information on many aspects of seismic exploration, characterisation of reservoirs for compartmentalisation and cap-rock integrity. However, manual interpretation of faults from seismic data is time-consuming and challenging due to limited resolution and seismic noise. In this study, we apply a convolutional neural network trained on synthetic seismic data with planar fault shapes to improve fault mapping in the Lower and Upper Cretaceous sections of the Valdemar Field in the Danish North Sea. Our objective is to evaluate the performance of the neural network model on post-stack seismic data from the Valdemar Field. Comparison with variance and ant-tracking attributes and a manual fault interpretation shows that the neural network predicts faults with more details that may improve the overall geological and tectonic understanding of the study area and add information on potential compartmentalisation that was previously overlooked. However, the neural network is sensitive to seismic noise, which can distort the fault predictions. Therefore, the proposed model should be treated as an additional fault interpretation tool. Nonetheless, the method represents a state-of-the-art fault mapping tool that can be useful for hydrocarbon exploration and CO2 storage site evaluations.",

keywords = "Machine learning, fault detection, cap-rock integrity, reservoir modelling, Cretaceous, Danish North Sea, CENTRAL GRABEN, CHALK, INVERSION",

author = "Lorentzen, {Mads C. L.} and Kenneth Bredesen and Smit, {Florian W. H.} and Hansen, {Torsten H.} and Lars Nielsen and Klaus Mosegaard",

year = "2022",

doi = "10.37570/bgsd-2022-71-03",

language = "English",

volume = "71",

pages = "31--50",

journal = "Bulletin of the Geological Society of Denmark",

issn = "0011-6297",

publisher = "Dansk Geologisk Forening",

}

RIS

TY - JOUR

T1 - Mapping Cretaceous faults using a convolutional neural network - A field example from the Danish North Sea

AU - Lorentzen, Mads C. L.

AU - Bredesen, Kenneth

AU - Smit, Florian W. H.

AU - Hansen, Torsten H.

AU - Nielsen, Lars

AU - Mosegaard, Klaus

PY - 2022

Y1 - 2022

N2 - The mapping of faults provides essential information on many aspects of seismic exploration, characterisation of reservoirs for compartmentalisation and cap-rock integrity. However, manual interpretation of faults from seismic data is time-consuming and challenging due to limited resolution and seismic noise. In this study, we apply a convolutional neural network trained on synthetic seismic data with planar fault shapes to improve fault mapping in the Lower and Upper Cretaceous sections of the Valdemar Field in the Danish North Sea. Our objective is to evaluate the performance of the neural network model on post-stack seismic data from the Valdemar Field. Comparison with variance and ant-tracking attributes and a manual fault interpretation shows that the neural network predicts faults with more details that may improve the overall geological and tectonic understanding of the study area and add information on potential compartmentalisation that was previously overlooked. However, the neural network is sensitive to seismic noise, which can distort the fault predictions. Therefore, the proposed model should be treated as an additional fault interpretation tool. Nonetheless, the method represents a state-of-the-art fault mapping tool that can be useful for hydrocarbon exploration and CO2 storage site evaluations.

AB - The mapping of faults provides essential information on many aspects of seismic exploration, characterisation of reservoirs for compartmentalisation and cap-rock integrity. However, manual interpretation of faults from seismic data is time-consuming and challenging due to limited resolution and seismic noise. In this study, we apply a convolutional neural network trained on synthetic seismic data with planar fault shapes to improve fault mapping in the Lower and Upper Cretaceous sections of the Valdemar Field in the Danish North Sea. Our objective is to evaluate the performance of the neural network model on post-stack seismic data from the Valdemar Field. Comparison with variance and ant-tracking attributes and a manual fault interpretation shows that the neural network predicts faults with more details that may improve the overall geological and tectonic understanding of the study area and add information on potential compartmentalisation that was previously overlooked. However, the neural network is sensitive to seismic noise, which can distort the fault predictions. Therefore, the proposed model should be treated as an additional fault interpretation tool. Nonetheless, the method represents a state-of-the-art fault mapping tool that can be useful for hydrocarbon exploration and CO2 storage site evaluations.

KW - Machine learning

KW - fault detection

KW - cap-rock integrity

KW - reservoir modelling

KW - Cretaceous

KW - Danish North Sea

KW - CENTRAL GRABEN

KW - CHALK

KW - INVERSION

U2 - 10.37570/bgsd-2022-71-03

DO - 10.37570/bgsd-2022-71-03

M3 - Journal article

VL - 71

SP - 31

EP - 50

JO - Bulletin of the Geological Society of Denmark

JF - Bulletin of the Geological Society of Denmark

SN - 0011-6297

ER -

ID: 317933415