Deep learning based expert system to automate time-domain electromagnetic data processing

Muhammad Rizwan Asif; Pradip Kumar Maurya; Anders Vest Christiansen; Jakob Juul Larsen; Esben Auken

Deep learning based expert system to automate time-domain electromagnetic data processing

Muhammad Rizwan Asif, Pradip Kumar Maurya, Anders Vest Christiansen, Jakob Juul Larsen, Esben Auken

Direktion

Publikation: Bidrag til bog/rapport/konferenceproceedings › Abstract i proceedings › peer review

Resumé

Transient Electromagnetic (TEM) methods are routinely used to obtain detailed understanding of the subsurface, which may be used for a variety of applications such as groundwater mapping and mineral exploration. Modern TEM surveys, employing driving or flying during data collection, result in large datasets that may contain thousands of line kilometers of data. Parts of these data will often be contaminated by interference from man-made conductors, e.g. fences, buried power lines, known as “couplings”. If such disturbed data are inverted, the geological interpretation will be severely degraded in most cases. Therefore, couplings must be identified and removed from the data before inversion. The process of removing couplings is a time-consuming and highly sophisticated manual task. Machine learning based methods have been suggested as obvious automation tools, and the general approach has so far been to use large datasets of manually processed TEM data in a supervised learning approach. The problem with this is that it may be biased to local geological conditions and/or biased toward the individuals who perform the manual assessment (for instance a conservative versus optimistic coupling removal approach).

Originalsprog	Engelsk
Titel	34th Symposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP 2022)
Udgivelsessted	Denver
Forlag	Environmental and Engineering Geophysical Society
Sider	6
Antal sider	1
ISBN (Elektronisk)	978-1-7138-4513-3
Status	Udgivet - 2022
Begivenhed	34th Symposium on the Application of Geophysics to Engineering and Environmental Problems, - Denver, USA Varighed: 20 mar. 2022 → 24 mar. 2022 Konferencens nummer: 34

Konference

Konference	34th Symposium on the Application of Geophysics to Engineering and Environmental Problems,
Forkortet titel	SAGEEP 2022
Land/Område	USA
By	Denver
Periode	20/03/22 → 24/03/22

Programområde

Programområde 2: Vandressourcer

Adgang til dokumentet

https://www.eegs.org/assets/docs/Symposium/2022SAGEEP/AbstractsbyAuthor/Asif%2C%20DEEP%20LEARNING%20BASED%20EXPERT%20SYSTEM%20TO%20AUTOMATE%20TIME-DOMAIN%20ELECTROMAGNETIC%20DATA%20PROCESSING%20-%20SAGEEP%202022%20-%20205368293.pdfLicens: Ikke-specificeret

Citationsformater

Asif, M. R., Maurya, P. K., Christiansen, A. V., Larsen, J. J., & Auken, E. (2022). Deep learning based expert system to automate time-domain electromagnetic data processing. I 34th Symposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP 2022) (s. 6). Environmental and Engineering Geophysical Society. https://www.eegs.org/assets/docs/Symposium/2022SAGEEP/AbstractsbyAuthor/Asif%2C%20DEEP%20LEARNING%20BASED%20EXPERT%20SYSTEM%20TO%20AUTOMATE%20TIME-DOMAIN%20ELECTROMAGNETIC%20DATA%20PROCESSING%20-%20SAGEEP%202022%20-%20205368293.pdf

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title = "Deep learning based expert system to automate time-domain electromagnetic data processing",

abstract = "Transient Electromagnetic (TEM) methods are routinely used to obtain detailed understanding of the subsurface, which may be used for a variety of applications such as groundwater mapping and mineral exploration. Modern TEM surveys, employing driving or flying during data collection, result in large datasets that may contain thousands of line kilometers of data. Parts of these data will often be contaminated by interference from man-made conductors, e.g. fences, buried power lines, known as “couplings”. If such disturbed data are inverted, the geological interpretation will be severely degraded in most cases. Therefore, couplings must be identified and removed from the data before inversion. The process of removing couplings is a time-consuming and highly sophisticated manual task. Machine learning based methods have been suggested as obvious automation tools, and the general approach has so far been to use large datasets of manually processed TEM data in a supervised learning approach. The problem with this is that it may be biased to local geological conditions and/or biased toward the individuals who perform the manual assessment (for instance a conservative versus optimistic coupling removal approach).",

author = "Asif, {Muhammad Rizwan} and Maurya, {Pradip Kumar} and Christiansen, {Anders Vest} and Larsen, {Jakob Juul} and Esben Auken",

year = "2022",

language = "English",

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booktitle = "34th Symposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP 2022)",

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Asif, MR, Maurya, PK, Christiansen, AV, Larsen, JJ & Auken, E 2022, Deep learning based expert system to automate time-domain electromagnetic data processing. i 34th Symposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP 2022). Environmental and Engineering Geophysical Society, Denver, s. 6, 34th Symposium on the Application of Geophysics to Engineering and Environmental Problems, , Denver, Colorado, USA, 20/03/22. <https://www.eegs.org/assets/docs/Symposium/2022SAGEEP/AbstractsbyAuthor/Asif%2C%20DEEP%20LEARNING%20BASED%20EXPERT%20SYSTEM%20TO%20AUTOMATE%20TIME-DOMAIN%20ELECTROMAGNETIC%20DATA%20PROCESSING%20-%20SAGEEP%202022%20-%20205368293.pdf>

Deep learning based expert system to automate time-domain electromagnetic data processing. / Asif, Muhammad Rizwan; Maurya, Pradip Kumar; Christiansen, Anders Vest et al.
34th Symposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP 2022). Denver: Environmental and Engineering Geophysical Society, 2022. s. 6.

Publikation: Bidrag til bog/rapport/konferenceproceedings › Abstract i proceedings › peer review

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T1 - Deep learning based expert system to automate time-domain electromagnetic data processing

AU - Asif, Muhammad Rizwan

AU - Maurya, Pradip Kumar

AU - Christiansen, Anders Vest

AU - Larsen, Jakob Juul

AU - Auken, Esben

N1 - Conference code: 34

PY - 2022

Y1 - 2022

N2 - Transient Electromagnetic (TEM) methods are routinely used to obtain detailed understanding of the subsurface, which may be used for a variety of applications such as groundwater mapping and mineral exploration. Modern TEM surveys, employing driving or flying during data collection, result in large datasets that may contain thousands of line kilometers of data. Parts of these data will often be contaminated by interference from man-made conductors, e.g. fences, buried power lines, known as “couplings”. If such disturbed data are inverted, the geological interpretation will be severely degraded in most cases. Therefore, couplings must be identified and removed from the data before inversion. The process of removing couplings is a time-consuming and highly sophisticated manual task. Machine learning based methods have been suggested as obvious automation tools, and the general approach has so far been to use large datasets of manually processed TEM data in a supervised learning approach. The problem with this is that it may be biased to local geological conditions and/or biased toward the individuals who perform the manual assessment (for instance a conservative versus optimistic coupling removal approach).

AB - Transient Electromagnetic (TEM) methods are routinely used to obtain detailed understanding of the subsurface, which may be used for a variety of applications such as groundwater mapping and mineral exploration. Modern TEM surveys, employing driving or flying during data collection, result in large datasets that may contain thousands of line kilometers of data. Parts of these data will often be contaminated by interference from man-made conductors, e.g. fences, buried power lines, known as “couplings”. If such disturbed data are inverted, the geological interpretation will be severely degraded in most cases. Therefore, couplings must be identified and removed from the data before inversion. The process of removing couplings is a time-consuming and highly sophisticated manual task. Machine learning based methods have been suggested as obvious automation tools, and the general approach has so far been to use large datasets of manually processed TEM data in a supervised learning approach. The problem with this is that it may be biased to local geological conditions and/or biased toward the individuals who perform the manual assessment (for instance a conservative versus optimistic coupling removal approach).

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Deep learning based expert system to automate time-domain electromagnetic data processing

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Citationsformater