۳D inversion of magnetic data using Lanczos bidiagonalization and unstructured element

Khatereh Danaei; Ali Moradzadeh; Gholam Hossain Norouzi; Maysam Abedi

۳D inversion of magnetic data using Lanczos bidiagonalization and unstructured element

محل انتشار: مجله بین المللی معدن و مهندسی زمین، دوره: 57، شماره: 1

سال انتشار: 1402

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 224

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https://civilica.com/doc/1625760

شناسه ملی سند علمی:

JR_IJMGE-57-1_011

تاریخ نمایه سازی: 16 فروردین 1402

چکیده مقاله:

This work presents an algorithm to construct a ۳D magnetic susceptibility property from magnetic geophysical data. Physical model discretization has substantial impact on accurate inverse modeling of the sought sources in potential field geophysics, where structural meshing suffers from edge preserving of complex-shaped geological sources. In potential field geophysics, a finite-element (FE) methodology is usually employed to discretize the desired physical model domain through an unstructured mesh. The forward operator is calculated through a Gauss-Legendre quadrature technique rather than an analytic equation. To stabilize mathematical procedure of inverse modeling and cope with the intrinsic non-uniqueness arising from magnetometry data modeling, regularization is often implemented by utilizing a norm-based Tikhonov cost function. A so-called fast technique, “Lanczos Bidiagonalization (LB) algorithm”, can be utilized to solve the central system of equations derived from optimizing the function, where it decreases the execution time of the inverse problem by replacing the forward matrix with a lower dimension one. In addition, to obtain best regularization parameter, a weighted generalized cross-validation (WGCV) curve is plotted, that makes a balance between misfit norm and model norm introduced in the cost function. In order to tackle the normal propensity of physical structures to focus at the shallow depth, an expression of depth weighting is used. This procedure is applied to a synthetic scenario presenting a complex-shaped geometry along with a real set of magnetic data in central part of Iran. So the capability of the proposed algorithm for inversion indicates the accuracy of the inversion algorithm. Additionally, the modeling results pertaining to a field case study are in good agreement with the drilling data.

کلیدواژه ها:

Unstructured meshing ، Magnetic data inversion ، LB algorithm ، WGCV ، Iron deposit

نویسندگان

Khatereh Danaei

School of Mining Engineering, College of Engineering, University of Tehran, Tehran, Iran

Ali Moradzadeh

School of Mining Engineering, College of Engineering, University of Tehran, Tehran, Iran

Gholam Hossain Norouzi

School of Mining Engineering, College of Engineering, University of Tehran, Tehran, Iran

Maysam Abedi

School of Mining Engineering, College of Engineering, University of Tehran, Tehran, Iran

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Li, Y., Oldenburg, D.W., ۱۹۹۸. ۳-D inversion of gravity data. ...
Blakely, R. J. (۱۹۹۶). Potential theory in gravity and magnetic applications. ...
Menke, W., ۱۹۸۹. Geophysical Data Analysis: Discrete Inverse Theory. Academic ...
Cella, F., & Fedi, M. (۲۰۱۲). Inversion of potential field ...
Abedi, M., Gholami, A., Norouzi, G.H., ۲۰۱۴. ۳D inversion of ...
Abedi, M., ۲۰۱۹. AIRRLS: an augmented iteratively re-weighted and refined ...
Essa, K.S., Elhussein, M., ۲۰۱۷. A new approach for the ...
Biswas, A., ۲۰۲۰. Interpretation of gravity anomaly over ۲D vertical ...
Zhang, Y., Yan, J., Li, F., Chen, C., Mei, B., ...
Yang, M., Wang, W., Kim Welford, J., Farquharson, C.G., ۲۰۱۹. ...
Li, Y., Oldenburg, D.W., ۲۰۰۳. Fast inversion of large-scale magnetic ...
Leli`evre, P.G., Oldenburg, D.W., Williams, N., ۲۰۰۹. Integrating geological and ...
Fournier, D., Oldenburg, D.W., ۲۰۱۹. Inversion using spatially variable mixed ...
Portniaguine, O., Zhdanov, M.S., ۲۰۰۲. ۳D magnetic inversion with data ...
Jahandari, H., & Farquharson, C. G. (۲۰۱۵). Finite-volume modelling of ...
Jahandari, H., Ansari, S.M., Farquharson, C.G., ۲۰۱۷. Comparison between staggered ...
Liu, S., Hu, X., Xi, Y., Liu, T., ۲۰۱۵a. ۲D ...
Singh, A., ۲۰۲۰. Triangular grid-based fuzzy cross-update inversion of gravity ...
Baranwal, V.C., Franke, A., Borner, R.U., Spitzer, K., ۲۰۱۱. Unstructured ...
Darijani, M., Farquharson, C.G., Leli`evre, P.G., ۲۰۲۰. Clustering and constrained ...
Cai, Y., & Wang, C. Y. (۲۰۰۵). Fast finite-element calculation ...
Key, K., & Ovall, J. (۲۰۱۱). A parallel goal-oriented adaptive ...
Jahandari, H., & Farquharson, C. G. (۲۰۱۳). Forward modeling of ...
Kim, G. S., Ryu, J. C., Sin, O. C., Han, ...
Gross, L., Altinay, C., & Shaw, S. (۲۰۱۵). Inversion of ...
Roussel, C., Verdun, J., Cali, J., & Masson, F. (۲۰۱۵). ...
Schaa, R., Gross, L., & Du Plessis, J. (۲۰۱۶). PDE-based ...
Li, J., Lu, X., Farquharson, C. G., & Hu, X. ...
Uwiduhaye, J. D. A., Mizunaga, H., & Saibi, H. (۲۰۱۹). ...
Codd, A. L., Gross, L., & Aitken, A. (۲۰۲۱). Fast ...
Rezaie, M., Moradzadeh, A., & Kalateh, A. N. (۲۰۱۷). Fast ...
Tikhonov, A. N., & Arsenin, V. I. (۱۹۷۷). Solutions of ill-posed ...
Martin, R., Monteiller, V., Komatitsch, D., Perrouty, S., Jessell, M., ...
Kim, Kang-sop, Hu, Xiang-yun, et al., ۲۰۰۹. Study on isoparametric ...
Pilkington, M. (۱۹۹۷). ۳-D magnetic imaging using conjugate gradients. Geophysics, ۶۲(۴), ۱۱۳۲-۱۱۴۲ ...
Meng, Z., Li, F., Xu, X., Huang, D., & Zhang, ...
Moradzadeh, A. (۱۹۹۸). Electrical imaging of the Adelaide geosyncline using magnetotellurics ...
Zhdanov, M. S. (۲۰۰۲). Geophysical inverse theory and regularization problems (Vol. ۳۶). ...
Abedi, M. (۲۰۲۲). Cooperative fuzzy‑guided focused inversion for unstructured mesh ...
Danaei, K., Moradzadeh, A., Norouzi, G. H., Smith, R., Abedi, ...
Daliran, F., Stosch, H.G., Williams, P., ۲۰۱۰. Lower Cambrian iron ...
Nabatian, Gh., Rastad, E., Neubauer, F., Honarmand, M., Ghaderi, M., ...
۶۲, ۲۱۱–۲۴۱ ...
Alamdar, K., ۲۰۱۶a. Interpretation of the magnetic data from Shavaz ...
Alamdar, K., ۲۰۱۶b. Development of the gradient ratio method for ...
Rahimi, E. (۲۰۱۸), Depth estimation of the potential field data ...
Abedi, M. (۲۰۲۰). A focused and constrained ۲D inversion of ...

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