Publications

Recent Publications

Jorgensen, Zhdanov, M.S., 2024, Simultaneous Inversion of Magnetic Data into Induced and Remanent Magnetizations: European Association of Geoscientists & Engineers, 85th EAGE Annual Conference & Exhibition (including the Workshop Programme), Jun 2024, Volume 2024, p.1 – 5, ISBN: 9789462824980, DOI: https://doi.org/10.3997/2214-4609.202410159

L. Cox, M. Zhdanov and A. Prikhodko, 2024, Simultaneous Inversion of AEM Data for 3D Conductivity and Chargeability: Case Study of TargetEM Data, Canada: European Association of Geoscientists & Engineers, 85th EAGE Annual Conference & Exhibition (including the Workshop Programme), Jun 2024, Volume 2024, p.1 – 5, ISBN: 9789462824980, DOI: https://doi.org/10.3997/2214-4609.202410104

Zhdanov, M.S., M. Jorgensen and M. Tao, 2023, Probabilistic approach to Gramian inversion of multiphysics data: Frontiers in Earth Science, 11. http://www.cemi.utah.edu/PDF_70_10/2023a.pdf

Xu, Z., R. Wang, M. S Zhdanov, X. Wang, J. Li, B. Zhang, S. Liang, Y, Wang, 2023, Inversion of the Gravity Gradiometry Data by ResUet Network: An Application in Nordkapp Basin, Barents Sea: IEEE Transactions on Geoscience and Remote Sensing, 62.http://www.cemi.utah.edu/PDF_70_10/2023b.pdf

Zhdanov, M. S., M Jorgensen, M Tao, 2023, Joint Inversion of Gravity Gradiometry and Magnetic Data in the Barents Sea using the Probabilistic Gramian: 84th EAGE Annual Conference & Exhibition, Jun 2023, Volume 2023, p.1 5.http://www.cemi.utah.edu/PDF_70_10/2023c.pdf

Cox, L.H., Zhdanov, M.S., Pitcher, D.H., Niemi, J.,2023, Three-Dimensional Inversion of Induced Polarization Effects in Airborne Time Domain Electromagnetic Data Using the GEMTIP Model: Minerals, 13, 779. http://www.cemi.utah.edu/PDF_70_10/2023d.pdf

Jorgensen, M.; Zhdanov, M.S.; Parsons, B., 2023, 3D Focusing Inversion of Full Tensor Magnetic Gradiometry Data with Gramian Regularization: Minerals, 13, 851. http://www.cemi.utah.edu/PDF_70_10/2023e.pdf

Cao J., Zhdanov M. S., Zu S., Wang H. and Sun J., 2023, Geophysical inversion and interpretation based on new generation artificial intelligence: Frontiers in Earth Science, 11:1252072. http://www.cemi.utah.edu/PDF_70_10/2023f.pdf

 Tu, X., and M.S. Zhdanov, 2021, Joint Gramian inversion of geophysical data with different resolution capabilities: case study in Yellowstone: Geophysical Journal International, 226, 1058-1085.

Zhdanov, M.S., M. Jorgensen, and L. Wan, 2022, Three-dimensional gravity inversion in the presence of the sediment-basement interface: a case study in Utah, USA: Minerals, 12, 448.

Tu, X., and M.S. Zhdanov, 2022, Joint focusing inversion of marine controlled-source electromagnetic and full tensor gravity gradiometry data: Geophysics, 87 (5), 1-57. https://doi.org/10.1190/geo2021-0691.1

Cox, L., M. Jorgensen, M.S. Zhdanov, D. Pitcher, and J. Niemi, 2022, Inversion of Airborne Data for Three-Dimensional Conductivity, Chargeability, and Magnetic Properties Models in Wawa, Ontario, Canada: Proceedings of 83rd EAGE Annual Conference & Exhibition 2022.

Nadasi, E., A.V. Gribenko, and M.S. Zhdanov, 2022, Data-Space Implementation of Regularized Gauss-Newton Method in 3D Inversion of the Lithoprobe and Earthscope MT Data: Proceedings of 83rd EAGE Annual Conference & Exhibition 2022.

Zhdanov, M.S., M. Jorgensen, and L. Wan, 2022, Three-Dimensional Gravity Inversion in the Presence of the Sediment-Basement Interface: A Case Study in Utah, USA: Minerals, 12 (4), 448.

Zhdanov, M.S., X. Tu, and M. Ćuma, 2022, Cooperative inversion of multiphysics data using joint minimum entropy constraints: Near Surface Geophysics, https://doi.org/10.1002/nsg.12203

Zhdanov, M.S., M. Jorgensen, L. Wan, 2022, Two-step approach to 3D gravity inversion: Case study in the State of Utah: Proceedings of First International Meeting for Applied Geoscience & Energy, 916-920.

Tu, X. and M.S. Zhdanov, 2022, Joint focusing inversion of marine controlled-source electromagnetic and full tensor gravity gradiometry data: Case study of the Nordkapp Basin in Barents Sea, Norway: Proceedings of First International Meeting for Applied Geoscience & Energy, 1746-1750.

Tao, M., M. Jorgensen, and M.S. Zhdanov, 2022, Mapping the salt structures from magnetic and gravity gradiometry data in Nordkapp Basin, Barents Sea: Proceedings of First International Meeting for Applied Geoscience & Energy, 874-878

M.S. Zhdanov, Ed. 2022, Editorial for Special Issue ‘Geophysics for Mineral Exploration’: Minerals, 11 (7), 692.

Nadasi, E., A.V. Gribenko, and M.S. Zhdanov, 2022, Large-scale inversion of magnetotelluric data using regularized Gauss-Newton method in the data space: Pure and Applied Geophysics, 1-22. https://doi.org/10.1007/s00024-022-03147-0

Jorgensen, M., M.S. Zhdanov, and B. Parsons, 2022, 3D inversion of QMAGT airborne magnetic gradiometry data for susceptibility and magnetization vector models of the Thompson Nickel Belt in Manitoba, Canada: Second International Meeting for Applied Geoscience & Energy, 1135-1139.

Zhdanov, M.S., M. Jorgensen, A. Gribenko, M. Ikeya, and Y. Usui, 2022, 3D joint Gramian inversion of airborne gravity gradiometry and magnetotelluric data for geothermal resource exploration: Second International Meeting for Applied Geoscience & Energy, 1155-1159.

Gribenko, A., L. Cox, M. Jorgensen, M.S. Zhdanov, M. Ikeya, and Y. Usui, 2022, Integrated 3D inversion of magnetotelluric and HeliTEM data collected in the geothermal area of Japan: Second International Meeting for Applied Geoscience & Energy, 682-686.

Zhdanov, M.S., M. Jorgensen and M. Tao, 2023, Probabilistic approach to Gramian inversion of multiphysics data: Frontiers in Earth Science, 11.

Yavich, N., N. Khokhlov, M. Malovichko, and M.S. Zhdanov, 2021, Contraction operator transformation for the complex heterogeneous Helmholtz equation: Computers and Mathematics with Applications, 86 (2021), 63-72.

Jorgensen, M., and M.S. Zhdanov, 2021, Recovering magnetization of rock formations by jointly inverting airborne gravity gradiometry and total magnetic intensity data: Minerals, 11, 366.

Zhdanov, M.S., M. Jorgensen, and L. Cox, 2021, Advanced methods of joint inversion of multiphysics data for mineral exploration: Geosciences, 11, 262.

Yavich, N. and M. S. Zhdanov, 2020, Finite-element EM modelling on hexahedral grids with an FD solver as a pre-conditioner: Geophysical Journal International, 223 (2), 840-850.

Xu, Z., L. Wan, and M. S. Zhdanov, 2020, Focusing iterative migration of gravity gradiometry data acquired in the Nordkapp Basin, Barents Sea: Geophysical Prospecting 68 (7), 2292-2306.

Alfouzan, F. A. , A. M. Alotaibi, L. H. Cox, and M. S. Zhdanov, 2020, Spectral Induced Polarization Survey with Distributed Array System for Mineral Exploration: Case Study in Saudi Arabia: Minerals, 10, 769; doi:10.3390/min10090769.

Avdotin, E., N. Yavich, N. Khokhlov, and M.S. Zhdanov, 2020, Increasing the effectiveness of 3D modeling visco-acoustic wave propagation with a solver based on contraction operator: Proceedings of NSG20, European Association of Geoscientists and Engineers.

Jorgensen, M., and M.S. Zhdanov, 2020, Application of Gramian and focusing structural constraints to joint inversion of gravity and magnetic data: Proceedings of NSG20, European Association of Geoscientists and Engineers.

Jorgensen, M., L. Cox, and M.S. Zhdanov, 2020, Joint inversion of airborne electromagnetic and total magnetic intensity data using Gramian structural constraints: Proceedings of EAGE20, European Association of Geoscientists and Engineers.

Khokhlov, N., P. Stognii, and M.S. Zhdanov, 2020, Novel approach to modelling the elastic waves in a cluster of 3D fractured structures: Proceedings of NSG20, European Association of Geoscientists and Engineers.

Malovichko, M., N Khokhlov, N Yavich, and M.S. Zhdanov, 2020, Incorporating known petrophysical model in the seismic full‐waveform inversion using the Gramian constraint: Geophysical Prospecting, 68 (4), 1361-1378.

Malovichko, M., A.V. Tarasov, N Yavich, and M. S. Zhdanov, 2019, Mineral exploration with 3-D controlled-source electromagnetic method: a synthetic study of Sukhoi Log gold deposit: Geophysical Journal International, 3, 1698-1716.

Zhdanov, M. S., 2020, Maxwell’s equations and numerical electromagnetic modeling in the context of the theory of differential forms: Active geophysical monitoring, 245-267.

Wan, L., M Han, HA AlJanobi, and MS Zhdanov, 2020, Feasibility study of gravity gradiometry monitoring of CO2 sequestration in deep reservoirs using surface and borehole data: Active Geophysical Monitoring, 123-140.

Marsala, A., M.S. Zhdanov, V Burtman, L Cox, D Sunwall, and M Ćuma, 2020, Feasibility study of reservoir monitoring using the induced polarization effect associated with nanoparticles: Active Geophysical Monitoring, 141-164.

Zhdanov, M..S , and S Wang, 2020, Foundations of the method of electromagnetic field separation in upgoing and downgoing parts and its application to marine controlled source electromagnetic data: Active Geophysical Monitoring, 295-321.

Zhdanov, M.S., M Ćuma, and T Ueda, 2020, Three-dimensional electromagnetic holographic imaging in active monitoring of sea-bottom geoelectrical structures: Active Geophysical Monitoring, 269-294.

Black, N., and M.S. Zhdanov, 2020, Active geophysical monitoring of hydrocarbon reservoirs using electromagnetic methods: Active Geophysical Monitoring, 69-95.

Zhdanov, M.S., M Han, and L Wan, 2020, Joint iterative migration of surface and borehole gravity gradiometry data: Active Geophysical Monitoring, 97-121.

Malovichko, M., N Khokhlov, N Yavich, and M.S. Zhdanov, 2020, Incorporating known petrophysical model in the seismic full‐waveform inversion using the Gramian constraint: Geophysical Prospecting, 68 (4), 1361-1378.

Tu, X., and M.S. Zhdanov, 2020, Least Squares Migration of Synthetic Aperture Data for Towed Streamer Electromagnetic Survey: IEEE Geoscience and Remote Sensing Letters.

Tu, X., and M.S. Zhdanov, 2020, Robust Synthetic Aperture Imaging of Marine Controlled-Source Electromagnetic Data: IEEE Transactions on Geoscience and Remote Sensing.

Tu, X., and M.S. Zhdanov, 2019, Enhancement and sharpening the migration images of the gravity field and its gradients: Pure and Applied Geophysics: 1-23.

Zhdanov, M. S., and X. Tu, 2019, Processing and imaging of towed-streamer electromagnetic data with synthetic aperture method: First Break, 37 (12), 51-54.

Xu, Z., Wan, L., Han, M., Zhdanov, M. S., & Mao, Y. (2019). Joint inversion of gravity gradiometry data by model-weighted clustering in logarithmic space. In SEG Technical Program Expanded Abstracts 2019 (pp. 1779-1783). Society of Exploration Geophysicists.

Cox, L. H., Zhdanov, M. S., & Alfouzan, F. (2019). Inductive coupling in IP measurements and applications to 3D distributed array field data inversion. In SEG Technical Program Expanded Abstracts 2019 (pp. 2173-2177). Society of Exploration Geophysicists.

Zhdanov, M. S., Alfouzan, F., Cox, L. H., & Alotaibi, A. (2019). From airborne to effective-medium spectral IP mineral exploration: A case study in Saudi Arabia. In SEG Technical Program Expanded Abstracts 2019 (pp. 2178-2182). Society of Exploration Geophysicists.

Jorgensen, M., & Zhdanov, M. S. (2019). Imaging Yellowstone magmatic system by the joint Gramian inversion of gravity and magnetotelluric data. Physics of the Earth and Planetary Interiors, 292, 12-20.

Tu, X., & Zhdanov, M. S. (2019). Enhancing and sharpening the migration images of gravity field and its gradients. In SEG Technical Program Expanded Abstracts 2019 (pp. 1704-1708). Society of Exploration Geophysicists.

Tu, X., & Zhdanov, M. S. (2019). Least square migration of synthetic aperture data for towed streamer electromagnetic survey. In SEG Technical Program Expanded Abstracts 2019(pp. 1135-1139). Society of Exploration Geophysicists.

Malovichko, M., Tarasov, A. V., Yavich, N., & Zhdanov, M. S. (2019, June). Comparing the Effectiveness of CSEM, CSAMT, and DC Methods on a 3D Model of Gold Deposit. In 81st EAGE Conference and Exhibition 2019.

Lin, W., & Zhdanov, M. S. (2019). The Gramian Method of Joint Inversion of the Gravity Gradiometry and Seismic Data. Pure and Applied Geophysics, 176(4), 1659-1672.

Zhdanov, M., Alfouzan, F., Cox, L., Alotaibi, A., Alyousif, M., Sunwall, D., & Endo, M. (2018). Large-Scale 3D Modeling and Inversion of Multiphysics Airborne Geophysical Data: A Case Study from the Arabian Shield, Saudi Arabia. Minerals, 8(7), 271.

Zhdanov, M., Endo, M., Cox, L., & Sunwall, D. (2018). Effective-medium inversion of induced polarization data for mineral exploration and mineral discrimination: Case study for the copper deposit in Mongolia. Minerals, 8(2), 68.

Airborne Publications

Zhdanov, M. S., Alfouzan, F., Cox, L. H., & Alotaibi, A. (2019). From airborne to effective-medium spectral IP mineral exploration: A case study in Saudi Arabia. In SEG Technical Program Expanded Abstracts 2019 (pp. 2178-2182). Society of Exploration Geophysicists.

Zhdanov, M., Alfouzan, F., Cox, L., Alotaibi, A., Alyousif, M., Sunwall, D., & Endo, M. (2018). Large-Scale 3D Modeling and Inversion of Multiphysics Airborne Geophysical Data: A Case Study from the Arabian Shield, Saudi Arabia. Minerals, 8(7), 271.

Endo, M., Gribenko, A., Sunwall, D., Zhdanov, M.S., Miura, T., Mochinaga, H., Aoki, N. and Mouri, T., 2018. Integrated interpretation of multimodal geophysical data for exploration of geothermal resources-Case study: Yamagawa geothermal field in Japan. In SEG Technical Program Expanded Abstracts 2018 (pp. 2322-2326). Society of Exploration Geophysicists. (Direct Download)

Zhdanov, M.S., Alfouzan, F.A., Cox, L., Alotaibi, A., Alyousif, M., Sunwall, D., Endo, M., 2018, Large-Scale 3D Modeling and Inversion of Multiphysics Airborne Geophysical Data: A Case Study from the Arabian Shield, Saudi Arabia: Minerals 8, 271.
Direct Download

Cai, H., X. Hu, B. Xiong, and M. S. Zhdanov, 2017, Finite-element time-domain modeling of electromagnetic data in general dispersive medium using adaptive Pade series: Computers & Geosciences, 109, 194-205.

Zhdanov, M.S., Endo, M., Čuma, M., Sunwall, D., Malmberg, J., McKay, A., Tshering, T., Midgley, J., 2016, Large-scale seismically guided anisotropic inversion of towed-streamer EM data in the Barents Sea: First Break, 34, November 2016, Special Topic.
Direct Download

Cuma, M., Cox, L. and Zhdanov, M., 2016, September. Paradigm Change in Interpretation of AEM Data by Using a Large-scale Parallel 3D Inversion. In Near Surface Geoscience 2016-First Conference on Geophysics for Mineral Exploration and Mining.

Cuma, M., Zhdanov, M. and Cox, L., 2016. Large-scale parallel 3D inversion of frequency and time-domain AEM data. In SEG Technical Program Expanded Abstracts 2016 (pp. 852-856). Society of Exploration Geophysicists.

Zhu, Y., & Zhdanov, M. S. 2015. Joint Inversion of Airborne Magnetic and Electromagnetic Data: Case Study in the Northwest Territories of Canada. Society of Exploration Geophysicists.

Ley-Cooper, A. Y., Viezzoli, A., Guillemoteau, J., Vignoli, G., Macnae, J., Cox, L., and Munday, T., 2015, Airborne electromagnetic modelling options and their consequences in target definition: Exploration Geophysics, 46, 74–84

Leif H. Cox and Michael S. Zhdanov (2014) 3D airborne electromagnetic inversion using a hybrid edge-based FE-IE method with moving sensitivity domain. SEG Technical Program Expanded Abstracts 2014: pp. 739-744. doi: 10.1190/segam2014-0927.1

Zhdanov, M. S., and L. Cox. 3D Airborne Electromagnetic Inversion in the Areas with High Conductivity Contrasts and Rugged Topography. Near Surface Geoscience 2014-20th European Meeting of Environmental and Engineering Geophysics. 2014.

Zhdanov, M.S., Cox, L., and Rudd, J., 2013, Paradigm change in 3D inversion of airborne EM surveys: case study for oil sans exploration near Fort McMurray, Alberta: First Break, Vol. 31, April, 45-49.

Cox, L. H., G. A. Wilson, and M. S. Zhdanov, 2012, 3D inversion of airborne electromagnetic data: Geophysics, 77 (4), WB59–WB69, doi: 10.1190/GEO2011-0370.1.

Legault, J., Wilson, G.A., Gribenko, A.V., Zhdanov, M.S., Zhao, S., and Fisk, K, 2012, An overview of the ZTEM and AirMt airborne electromagnetic systems: a case study from the Nebo-Babel Ni-Cu- PGE deposit, West Musgrave, Western Australia: Preview, (Feature Paper), June, 26-32.

Legault, J., G. A. Wilson, A. V. Gribenko, M. S. Zhdanov, S. Zhao, and K. Fisk, 2012, An overview of the ZTEM and AirMt airborne electromagnetic systems: a case study from the Nebo–Babel Ni–Cu–PGE deposit, West Musgrave, Western Australia: Preview, no. 158, 26-32, doi: 10.1071/PVv2012n158p26.

Wilson, G. A., L. H. Cox, M. Cuma, and M. S. Zhdanov, 2012, Inverting airborne geophysical data for mega-cell and giga-cell 3D earth models: The Leading Edge, 31 (4), 936-941, doi: 10.1190/1.3694899.

Gribenko, A., M. S. Zhdanov, J. Legault, S. Zhao, L. H. Cox, G. A. Wilson, and K. Fisk, 2012, 3D inversion of AirMt AFMAG data: To be presented at SEG Exhibition and 82nd Annual Meeting, Las Vegas, Nevada, 4-9 November.

Zhdanov, M. S., M. Endo, M. Cuma, A. V. Gribenko, L. H. Cox, and G. A. Wilson, 2012, Massively-parallel 3D integral equation modeling and inversion: Presented at IAGA 21st Workshop on Electromagnetic Induction in the Earth, Darwin, Australia, 25-31 July.

Cox, L. H., G. A. Wilson, M. S. Zhdanov, and J. Rudd, 2012, 3D inversion of helicopter time-domain electromagnetic data for oil sands exploration near Fort McMurray, Alberta: Presented at 74th EAGE Conference and Exhibition, Copenhagen, Denmark, 4-7 June.

Cox, L. H., G. A. Wilson, M. S. Zhdanov, J. Rudd, and J. Wilson, 2012, Large-scale 3D inversion of helicopter electromagnetic surveys for oil sands exploration near Fort McMurray, Alberta: Presented at GeoConvention, Calgary, Alberta, 14-18 May.

Minsley, B. J., L. H. Cox, R. C. Brodie, G. A. Wilson, J. D. Abraham, and M. S. Zhdanov, 2012, A comparison of AEM inversion methods for discontinuous permafrost at Fort Yukon, Alaska: Presented at Symposium on the Application of Geophysics to Environmental and Engineering Problems, Tucson, Arizona, 25-29 March.

Wilson, G. A., L. H. Cox, M. S. Zhdanov, and M. Hope, 2012, Mega-cell 3D AEM inversion: Presented at KEGS 2012 PDAC Symposium, Toronto, Ontario, 3 March.

Zhdanov, M. S., 2012, Large-scale 3D inversion of airborne, land and marine EM data: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Abraham, J. D., B. J. Minsley, L. H. Cox, R. C. Brodie, G. A. Wilson, and M. S. Zhdanov, 2012, AEM inversion methods for imaging discontinuous permafrost near Fort Yukon, Alaska: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Zhdanov, M. S., 2012, KEYNOTE: Recent advances in large-scale 3D inversion of airborne electromagnetic and potential field data: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Combrinck, M., L. H. Cox, G. A. Wilson, and M. S. Zhdanov, 2012, 3D VTEM inversion for delineating subvertical shear zones in the West African gold belt: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Pare, P., A. V. Gribenko, L. H. Cox, M. Cuma, G. A. Wilson, M. S. Zhdanov, J. Legault, J. Smit, and L. Polome, 2012, 3D inversion of SPECTREM and ZTEM data from the Pebble Cu-Au-Mo porphyry deposit, Alaska: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Fraser, S. J., G. A. Wilson, L. H. Cox, M. Cuma, M. S. Zhdanov, and M. A. Vallee, 2012, Self-organizing maps for pseudo-lithological classification of 3D airborne electromagnetic, gravity gradiometry and magnetic inversions: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Legault, J., G. A. Wilson, A. V. Gribenko, M. S. Zhdanov, S. Zhao, and K. Fisk, 2012, An overview of the ZTEM and AirMt systems – A case study from the Nebo-Babel Ni-Cu-PGE deposit, West Musgrave, Western Australia: Presented at ASEG Natural EM Fields Workshop, Brisbane, Australia, 26 February.

Munday, T., L. H. Cox, G. A. Wilson, and M. S. Zhdanov, 2012, From 1D to 3D – Do I need special glasses: Presented at Workshop on Groundwater Resource Assessment in Western Australia – The Role of Airborne Hydrogeophysical Methods, Perth, Australia, 22 February.

Wilson, G. A., 2012, Large-scale 3D earth modeling using mega-cell inversions of airborne EM data and giga-cell inversions of potential field data: Presented at KEGS, Ottawa, Canada, October.

Abraham, J. D., B. J. Minsley, L. H. Cox, R. C. Brodie, G. A. Wilson, and M. S. Zhdanov, 2012, AEM inversion methods for imaging discontinuous permafrost near Fort Yukon, Alaska: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Zhdanov, M. S., 2012, KEYNOTE: Recent advances in large-scale 3D inversion of airborne electromagnetic and potential field data: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Combrinck, M., L. H. Cox, G. A. Wilson, and M. S. Zhdanov, 2012, 3D VTEM inversion for delineating subvertical shear zones in the West African gold belt: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Pare, P., A. V. Gribenko, L. H. Cox, M. Cuma, G. A. Wilson, M. S. Zhdanov, J. Legault, J. Smit, and L. Polome, 2012, 3D inversion of SPECTREM and ZTEM data from the Pebble Cu-Au-Mo porphyry deposit, Alaska: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Fraser, S. J., G. A. Wilson, L. H. Cox, M. Cuma, M. S. Zhdanov, and M. A. Vallee, 2012, Self-organizing maps for pseudo-lithological classification of 3D airborne electromagnetic, gravity gradiometry and magnetic inversions: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Legault, J., G. A. Wilson, A. V. Gribenko, M. S. Zhdanov, S. Zhao, and K. Fisk, 2012, An overview of the ZTEM and AirMt systems – A case study from the Nebo-Babel Ni-Cu-PGE deposit, West Musgrave, Western Australia: Presented at ASEG Natural EM Fields Workshop, Brisbane, Australia, 26 February.

Munday, T., L. H. Cox, G. A. Wilson, and M. S. Zhdanov, 2012, From 1D to 3D – Do I need special glasses: Presented at Workshop on Groundwater Resource Assessment in Western Australia – The Role of Airborne Hydrogeophysical Methods, Perth, Australia, 22 February.

Wilson, G. A., 2012, Large-scale 3D earth modeling using mega-cell inversions of airborne EM data and giga-cell inversions of potential field data: Presented at KEGS, Ottawa, Canada, October.

Abraham, J. D., B. J. Minsley, L. H. Cox, R. C. Brodie, G. A. Wilson, and M. S. Zhdanov, 2012, AEM inversion methods for imaging discontinuous permafrost near Fort Yukon, Alaska: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Zhdanov, M. S., 2012, KEYNOTE: Recent advances in large-scale 3D inversion of airborne electromagnetic and potential field data: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Combrinck, M., L. H. Cox, G. A. Wilson, and M. S. Zhdanov, 2012, 3D VTEM inversion for delineating subvertical shear zones in the West African gold belt: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Pare, P., A. V. Gribenko, L. H. Cox, M. Cuma, G. A. Wilson, M. S. Zhdanov, J. Legault, J. Smit, and L. Polome, 2012, 3D inversion of SPECTREM and ZTEM data from the Pebble Cu-Au-Mo porphyry deposit, Alaska: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Fraser, S. J., G. A. Wilson, L. H. Cox, M. Cuma, M. S. Zhdanov, and M. A. Vallee, 2012, Self-organizing maps for pseudo-lithological classification of 3D airborne electromagnetic, gravity gradiometry and magnetic inversions: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Legault, J., G. A. Wilson, A. V. Gribenko, M. S. Zhdanov, S. Zhao, and K. Fisk, 2012, An overview of the ZTEM and AirMt systems – A case study from the Nebo-Babel Ni-Cu-PGE deposit, West Musgrave, Western Australia: Presented at ASEG Natural EM Fields Workshop, Brisbane, Australia, 26 February.

Munday, T., L. H. Cox, G. A. Wilson, and M. S. Zhdanov, 2012, From 1D to 3D – Do I need special glasses: Presented at Workshop on Groundwater Resource Assessment in Western Australia – The Role of Airborne Hydrogeophysical Methods, Perth, Australia, 22 February.

Wilson, G. A., 2012, Large-scale 3D earth modeling using mega-cell inversions of airborne EM data and giga-cell inversions of potential field data: Presented at KEGS, Ottawa, Canada, October.

Pare, P., A. V. Gribenko, L. H. Cox, M. Cuma, G. A. Wilson, M. S. Zhdanov, J. Legault, J. Smit, and L. Polome, 2011, 3D inversion of SPECTREM and ZTEM airborne electromagnetic data from the Pebble CuAu-Mo porphyry deposit, Alaska: Exploration Geophysics, 43 (2), 104-115, doi: 10.1071/EG11044.

G.A. Wilson, S.J. Fraser, L. H. Cox, M. Cuma, M.S. Zhdanov, and M. Vallee, 2011, Lithological classification from data mining of 3D inversion of airborne electromagnetic, gravity gradiometry and magnetic data – a case study from Reid-Mahaffy, Ontario: Presented at SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628157.

Cox, L. H., A. V. Gribenko, M. Cuma, G. A. Wilson, and M. S. Zhdanov, 2011, Mount Milligan – a case study comparing 3D VTEM and ZTEM inversions: Presented at SAGEEP Workshop on Advances in Electromagnetic Induction, Charleston, South Carolina, 10-14 April.

Wilson, G. A., T. Munday, A. Fitzpatrick, L. H. Cox, and M. S. Zhdanov, 2011, Practical 3D inversion of AEM data for environmental applications in complex regolith settings: Presented at Symposium on the Application of Geophysics to Environmental and Engineering Problems, Charleston, South Carolina, 10- 14 April.

Cox, L. H., G. A. Wilson, and M. S. Zhdanov, 2010, 3D inversion of airborne electromagnetic data using a moving footprint: Exploration Geophysics, 41 (4), 250-259, doi: 10.1190/1.3513864.

Wilson, G. A., L. H. Cox, and M. S. Zhdanov, 2010, Practical 3D inversion of airborne electromagnetic data: Preview, (146), 29-33.

Zhdanov, M. S., 2010, Electromagnetic geophysics – notes from the past and the road ahead: Geophysics, 75 (5), 75A49-75A66, doi: 10.1190/1.3483901.

Cox, L.H., G.A., Wilson, and M.S., Zhdanov, 2010, Three-dimensional inversion of entire airborne electromagnetic surveys for salinity mapping: Presented at AGU Fall Meeting, San Francisco, California, 13-17 December, abstract NS34A-08.

Cox, L. H., G. A. Wilson, and M. S. Zhdanov, 2010, 3D inversion of frequency-domain AEM surveys with a moving footprint: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17-22 October, doi: 10.1190/1.3513864.

Cox, L. H., G. A. Wilson, and M. S. Zhdanov, 2010, 3D inversion of time-domain airborne electromagnetic data: Presented at IAGA 20th Workshop on Electromagnetic Induction in the Earth, Cairo, Egypt, 18-22 September.

Cox, L. H., G. A. Wilson, and M. S. Zhdanov, 2010, 3D inversion of entire AEM surveys using a moving footprint: Presented at ASEG 21st Geophysical Conference and International Exhibition, Sydney, Australia, 22-26 August, doi: 10.1190/1.3513864.

Ley-Cooper, Y., T. Munday, K. Blundell, J. Gum, C. Sorensen, A. Viezzoli, L. Cox, and G. Wilson, From 1D to full 3D inversion of AEM data for target definition in the Musgrave Province of South Australia: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Pare, P., A. V. Gribenko, L. H. Cox, M. Cuma, G. A. Wilson, M. S. Zhdanov, J. Legault, J. Smit, and L. Polome, 3D inversion of SPECTREM and ZTEM airborne electromagnetic data from the Pebble Cu-Au-Mo porphyry deposit, Alaska: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Gribenko, A. V., M. S. Zhdanov, M. Cuma, L. H. Cox, G. A. Wilson, and J. Legault, 3D inversion of ZTEM and AirMt data – A case study from the Nebo-Babel Ni-Cu-PGE deposit, West Musgrave, Western Australia: Presented at International Workshop on Gravity, Electrical, and Magnetic Methods, Beijing, 10-13 October.

Wilson, G. A., 2012, Large-scale 3D earth modeling using mega-cell inversions of airborne EM data and giga-cell inversions of potential field data: Presented at KEGS, Toronto, Canada, 13 September.

Wilson, G. A., L. H. Cox, M. Hope, and M. S. Zhdanov, Practical 3D inversion of AEM data – A case study from Golden Ridge, Tanzania: Presented at Geosynthesis, Cape Town, South Africa, 28 August – 3 September.

Books

Zhdanov M. S., 2023, Advanced Methods of Joint Inversion and Fusion of Multiphysics Data

Zhdanov, M. S., 2017, Foundations of Geophysical Electromagnetic Theory and Methods, Elsevier

Zhdanov, M.S., 2015, Geophysical electromagnetic theory and methods: Science Press (in Chinese ). ISBN: 978-7-03-046402-6/P 2884

Zhdanov, M. S., 2015, Inverse Theory and Applications in Geophysics, Elsevier.

Kasahara, J., V. Korneev, and Zhdanov, M. S., Eds 2010, Active geophysical monitoring: Handbook of Geophysical Exploration: Volume 40, Elsevier, 549 pages, ISBN: 008045262

Zhdanov, M.S., 2009, Geophysical Electromagnetic Theory and Methods, Methods in Geochemistry and Geophysics, 43, Elsevier, 868 pages, ISBN-10: 0-444- 52963-2.

Zhdanov, M.S.,2007, Geophysical inverse theory: Nauchnyi Mir, Moscow, 719 pp.

Zhdanov, M.S., and P.E. Wannamaker, 2002, Three-Dimensional Electromagnetics, Methods in Geochemistry and Geophysics, 35, Elsevier, 300 pages, ISBN: 0-444- 50429-X.

Zhdanov, M.S., 2002, Geophysical Inverse Theory and Regularization Problems, Methods in Geochemistry and Geophysics, 36, Elsevier, 628 pages, ISBN-10: 0-444- 51089-3.

Zhdanov, M S; Varentsov, I M; Weaver, J T; Golubev, N G; Krylov, V., 1997, Methods for modelling electromagnetic fields; Results from COMMEMI, the international project on the Comparison Of Modelling Methods for ElectroMagnetic Induction, Journal of Applied Geophysics, vol.37, N 3-4, pp.133- 271.

Zhdanov, M.S. and G.V. Keller, 1994, The Geoelectrical Methods in Geophysical Exploration, Methods in Geochemistry and Geophysics, 31, Elsevier, 884 pages, ISBN: 0-444- 89678-3.

Borehole Publications

Wan, L., Han, M., Ali AlJanobi, H., & Zhdanov, M. S. (2018). Feasibility study of gravity gradiometry monitoring of CO2 sequestration in deep reservoirs using surface and borehole data. In SEG Technical Program Expanded Abstracts 2018(pp. 1450-1454). Society of Exploration Geophysicists.

Wan, L., Han, M., Ali AlJanobi, H. and Zhdanov, M.S., 2018. Feasibility study of gravity gradiometry monitoring of CO2 sequestration in deep reservoirs using surface and borehole data. In SEG Technical Program Expanded Abstracts 2018(pp. 1450-1454). Society of Exploration Geophysicists. (Direct Download)

Alberto F. Marsala, Michael S. Zhdanov, Masashi Endo, and Noel Black (2014) 3D inversion of borehole to surface electromagnetic data in a multiple reservoirs survey. SEG Technical Program Expanded Abstracts 2014: pp. 2600-2604. doi: 10.1190/segam2014-0455.1

Burtman, V. , Fu, H. and Zhdanov, M. (2014) Experimental Study of Induced Polarization Effect in Unconventional Reservoir Rocks. Geomaterials, 4, 117-128. doi: 10.4236/gm.2014.44012.

Burtman, V. , Fu, H. and Zhdanov, M. (2014) Spectral Induced Polarization Effect in Unconventional Reservoir Rocks, SEG 33, Expanded Abstracts, 5 pages

Zhdanov, M.S., Endo, M., Black N., Spangler, L, Fairweather, S. Hibbs, A., Eiskamp, G.A., and Will, R., 2013, Electromagnetic monitoring of CO2 sequestration in deep reservoirs: First Break, Vol 31, February, p. 85-92.

Zhdanov, M.S., and Cai, H., 2012, Redatuming borehole-to-surface electromagnetic data using Stratton-Chu integral transforms: 82nd Annual International Meeting, SEG, Las Vegas, Nevada.

Gribenko, A., and Zhdanov, M., 2009, Rigorous 3D inversion of tensor electrical and magnetic induction well logging data in inhomogeneous media: 79th Annual International Meeting, SEG, Houston, Texas.

Zhdanov, Michael. Generalized effective-medium theory of induced polarization. Geophysics 73.5 (2008): F197-F211.

Gribenko, A., and M. S. Zhdanov, 2007, Regularized integral equation based inversion of tensor induction logging data in three-dimensional formations: 77 Expanded Abstracts, 497-501.

Zhdanov, M. S., W. D. Kennedy and E. Peksen, 2001, Foundations of tensor induction welllogging: Petrophysics, 42, 588-610.

Environmental Publications

Cox, L., Endo, M., Zhdanov, M., 2016, March. Three-Dimensional inversion of frequency domain data at arbitrary induction numbers. In Symposium on the Application of Geophysics to Engineering and Environmental Problems 2015 (pp. 113-118). Society of Exploration Geophysicists and Environment and Engineering Geophysical Society.

Minsley, B. J., L. H. Cox, R. C. Brodie, G. A. Wilson, J. D. Abraham, and M. S. Zhdanov, 2012, A comparison of AEM inversion methods for discontinuous permafrost at Fort Yukon, Alaska: Presented at Symposium on the Application of Geophysics to Environmental and Engineering Problems, Tucson, Arizona, 25-29 March.

Wilson, G. A., T. Munday, A. Fitzpatrick, L. H. Cox, and M. S. Zhdanov, 2011, Practical 3D inversion of AEM data for environmental applications in complex regolith settings: Presented at Symposium on the Application of Geophysics to Environmental and Engineering Problems, Charleston, South Carolina, 10-14 April.

General Modeling Publications

Favorskaya, A. V., Zhdanov, M. S., Khokhlov, N. I., & Petrov, I. B. (2018). Modelling the wave phenomena in acoustic and elastic media with sharp variations of physical properties using the grid‐characteristic method. Geophysical Prospecting, 66(8), 1485-1502.

Voynov, O. Y., Golubev, V. I., Zhdanov, M. S., & Petrov, I. B. (2018). Migration of elastic wavefield using adjoint operator and born approximation. In Innovations in Wave Processes Modelling and Decision Making (pp. 219-240). Springer, Cham.

TU, X. and Zhdanov, M.S., 2018. Robust optimal synthetic aperture imaging of towed streamer electromagnetic data. In SEG Technical Program Expanded Abstracts 2018 (pp. 903-908). Society of Exploration Geophysicists. (Direct Download)

Malovichko, M., N. Khokhlov, N. Yavich, M. Zhdanov, 2018, Acoustic 3D modeling by the method of integral equations: Computers & Geosciences, 111, 223-234.

Favorskaya, A.V., and M.S. Zhdanov, 2018, Migration of Elastic Fields Based on Kirchhoff and Rayleigh Integrals: in Innovations in Wave Processes Modelling and Decision Making: Springer, 219-240, 11,800-11,807.

Voynov, O. Y., V. I. Golubev, M.S. Zhdanov, and I.B. Petrov, 2018, Migration of Elastic Wavefield Using Adjoint Operator and Born Approximation: in Innovations in Wave Processes Modelling and Decision Making: Springer, 219-240, 11,800-11,807.

Cai, H., X. Hu, B. Xiong, and M. S. Zhdanov, 2017, Finite-element time-domain modeling of electromagnetic data in general dispersive medium using adaptive Pade series: Computers & Geosciences, 109, 194-205.

l.M. Malovichkoa, N. Khokhlova, N. Yavicha, M. Zhdanov, 2017, Approximate solutions of acoustic 3D integral equation and their application to seismic modeling and full-waveform inversion: Journal of Computational Physics, 346, 1 October 2017, pp. 318-339.
Direct Download

Yoon, D., Zhdanov, M.S., Mattsson, J., Cai, H., and Gribenko, A., 2016, A hybrid finite-difference and integral-equation method for modeling and inversion of marine controlled-source electromagnetic data: Geophysics, Vol. 81, No. 5, E323-336.

Yavich, N, and M S Zhdanov, 2016, Contraction preconditioner in finite-difference electromagnetic modeling: Geophysical Journal International, ggw237.

Zhdanov, M. S., and H Cai, 2016, Redatuming controlled-source electromagnetic data using Stratton–Chu type integral transformations: Journal of Applied Geophysics, 126, 1-12.

Hongzhu Cai, Xiangyu Hu, Jianhui Li, Masashi Endo, Bin Xiong, 2016, Parallelized 3D CSEM modeling using edge-based finite element with total field formulation and unstructured mesh, Computers & Geosciences, 99, 125-134.

Yavich, N. and Zhdanov, M.S., 2016. Contraction pre-conditioner in finite-difference electromagnetic modelling. Geophysical Journal International, 206(3), pp.1718-1729.

Cai, Hongzhu, et al. 3D controlled-source electromagnetic modeling in anisotropic medium using edge-based finite element method. Computers & Geosciences 73 (2014): 164-176.

Zhdanov, M. S., and H Cai, 2016, Redatuming controlled-source electromagnetic data using Stratton–Chu type integral transformations: Journal of Applied Geophysics, 126, 1-12.

Zhdanov, M.S., 2010, Maxwell’s equations and numerical electromagnetic modeling in the context of the theory of differential forms: in J. Kasahara, V. Korneev, and M.S. Zhdanov eds. Active Geophysical Monitoring, Elsevier, 299-324.

Joint Inversion and Interpretation Publications

Xu, Z., Wan, L., Han, M., Zhdanov, M. S., & Mao, Y. (2019). Joint inversion of gravity gradiometry data by model-weighted clustering in logarithmic space. In SEG Technical Program Expanded Abstracts 2019 (pp. 1779-1783). Society of Exploration Geophysicists.

Jorgensen, M., & Zhdanov, M. S. (2019). Imaging Yellowstone magmatic system by the joint Gramian inversion of gravity and magnetotelluric data. Physics of the Earth and Planetary Interiors, 292, 12-20.

Lin, W., & Zhdanov, M. S. (2019). The Gramian Method of Joint Inversion of the Gravity Gradiometry and Seismic Data. Pure and Applied Geophysics, 1-14.

Malovichko, M., Yavich, N., Khokhlov, N., & Zhdanov, M. (2018, September). The Gramian Constraint for Incorporating A Priori Geoelectrical Model into Seismic Full-Waveform Inversion. In 2nd Conference on Geophysics for Mineral Exploration and Mining.

Lin, W., & Zhdanov, M. S. (2018). Joint multinary inversion of gravity and magnetic data using Gramian constraints. Geophysical Journal International, 215(3), 1540-1557.

Endo, M., Cox, L., Sunwall, D., Zhdanov, M., & Asakawa, E. (2018, September). Geophysical exploration of submarine massive sulfide deposits based on integration of multimodal geophysical data. In 2nd Conference on Geophysics for Mineral Exploration and Mining.

Endo, M., Cox, L., Zhdanov, M., & Asakawa, E. (2018, June). Integrated Interpretation of Multimodal Geophysical Data for the Exploration of Submarine Hydrothermal Deposits. In 80th EAGE Conference and Exhibition 2018.

Jorgensen, M., & Zhdanov, M. S. (2018). Joint 3D inversion of gravity and MT data using Gramian constraints: A case study from Yellowstone. In SE

Zhdanov, M., Alfouzan, F., Cox, L., Alotaibi, A., Alyousif, M., Sunwall, D., & Endo, M. (2018). Large-Scale 3D Modeling and Inversion of Multiphysics Airborne Geophysical Data: A Case Study from the Arabian Shield, Saudi Arabia. Minerals, 8(7), 271.

Zhdanov, M. S., & Čuma, M. (2018). Joint inversion of multimodal data using focusing stabilizers and Gramian constraints. In SEG Technical Program Expanded Abstracts 2018 (pp. 1430-1434). Society of Exploration Geophysicists.

Induced Polarization Publications

Cox, L. H., Zhdanov, M. S., & Alfouzan, F. (2019). Inductive coupling in IP measurements and applications to 3D distributed array field data inversion. In SEG Technical Program Expanded Abstracts 2019 (pp. 2173-2177). Society of Exploration Geophysicists.

Zhdanov, M. S., Alfouzan, F., Cox, L. H., & Alotaibi, A. (2019). From airborne to effective-medium spectral IP mineral exploration: A case study in Saudi Arabia. In SEG Technical Program Expanded Abstracts 2019 (pp. 2178-2182). Society of Exploration Geophysicists.

Endo, M., Gribenko, A., Sunwall, D., Zhdanov, M. S., Miura, T., Mochinaga, H. (2018). Integrated interpretation of multimodal geophysical data for exploration of geothermal resources-Case study: Yamagawa geothermal field in Japan. In SEG Technical Program Expanded Abstracts 2018 (pp. 2322-2326). Society of Exploration Geophysicists.

Endo, M., Cox, L., Sunwall, D., Zhdanov, M., & Asakawa, E. (2018, September). Geophysical exploration of submarine massive sulfide deposits based on integration of multimodal geophysical data. In 2nd Conference on Geophysics for Mineral Exploration and Mining.

Endo, M., Cox, L., Zhdanov, M., & Asakawa, E. (2018, June). Integrated Interpretation of Multimodal Geophysical Data for the Exploration of Submarine Hydrothermal Deposits. In 80th EAGE Conference and Exhibition 2018.

Zhdanov, M.S, Endo, M., Cox, L., Sunwall, D., 2018, Effective-Medium Inversion of Induced Polarization Data for Mineral Exploration and Mineral Discrimination: Case Study for the Copper Deposit in Mongolia: Minerals 8, 68.
Direct Download

Zhdanov, M., Endo, M., Burtman, V., Cuma, M., Cox, L. and Sunwall, D., 2016. Effective-medium inversion of induced-polarization data for mineral exploration and mineral discrimination: Case study for the copper deposit in Mongolia. In SEG Technical Program Expanded Abstracts 2016 (pp. 2185-2189). Society of Exploration Geophysicists.

Burtman, V., and M. S. Zhdanov, 2015, Induced polarization effect in reservoir rocks and its modeling based on generalized effective-medium theory: Resource-Efficient Technologies 1, 34–48.

Xu Z. and M. S. Zhdanov, 2015, Three-Dimensional Cole-Cole Model Inversion of Induced Polarization Data Based on Regularized Conjugate Gradient Method: IEEE Geoscience and Remote Sensing Letters, Vol. 12, No. 6, D81-D94.

Burtman, V., Fu, H., and Zhdanov, M.S., 2014, Experimental study of induced polarization effect in unconventional reservoir rocks: Geomaterials, 4, 117-128.

Zhdanov, Michael. Generalized effective-medium theory of induced polarization. Geophysics 73.5 (2008): F197-F211.

Yoshioka, K. and Zhdanov, M.S., 2005, Three-dimensional nonlinear regularized inversion of the induced polarization data based on the Cole–Cole model: Physics of the earth and Planetary Interiors, V. 150, 29-43.

Magnetotellurics Publications

Jorgensen, M., & Zhdanov, M. S. (2019). Imaging Yellowstone magmatic system by the joint Gramian inversion of gravity and magnetotelluric data. Physics of the Earth and Planetary Interiors, 292, 12-20.

Jorgensen, M. and Zhdanov, M.S., 2018. Joint 3D inversion of gravity and MT data using Gramian constraints: A case study from Yellowstone. In SEG Technical Program Expanded Abstracts 2018 (pp. 2307-2311). Society of Exploration Geophysicists. (Direct Download)

A.V. Gribenko and M.S. Zhdanov, 2017, 3-D Inversion of the MT EarthScope Data, Collected Over the East Central United States: Geophysical Research Letters 10.1002/2017GL075000.

Martin Čuma, Alexander Gribenko, Michael S. Zhdanov. 2017, Inversion of magnetotelluric data using integral equation approach with variable sensitivity domain: Application to EarthScope MT data: Physics of the Earth and Planetary Interiors, 270, September 2017, pp. 113-127.
Direct Download

Zhdanov, M., and H. Cai, 2017, Joint Inversion of Gravity and Magnetotelluric Data for the Depth-to-Basement Estimation: IEEE Geoscience and Remote Sensing Letters, Vol. 14, No. 8, 1228 – 1232.

Cai, H. and Zhdanov, M., 2016. Three-Dimensional Inversion of Magnetotelluric Data for the Sediment–Basement Interface. IEEE Geoscience and Remote Sensing Letters, 13(3), pp.349-353.

Endo, Masashi, Martin Čuma, Alexander V. Gribenko, and Michael S. Zhdanov. “Large-scale 3D inversion of magnetotelluric data.” In Proceedings of the 12th SEGJ International Symposium, Tokyo, Japan, 18-20 November 2015, edited by Jun Matsushima, pp. 64-67. Society of Exploration Geophysicists and Society of Exploration Geophysicists of Japan, 2015.

Gribenko, A., & Zhdanov, M. S., 2015, 3D Inversion of Regional MT Data Distorted by Near- Surface Inhomogeneities using a Complex Distortion Matrix. Society of Exploration Geophysicists.

Jorgensen, M. R., & Cuma, M., & Zhdanov, M. S., 2015, 3D Joint Inversion of Magnetotelluric and Magnetovariational Data to Image Conductive Anomalies in Southern Alberta, Canada. Society of Exploration Geophysicists.

Cai, H., & Zhdanov, M. S., 2015, Magnetotelluric Inversion for Depth-to-Basement Estimation. Society of Exploration Geophysicists.

Martin Čuma, Alexander Gribenko, and Michael S. Zhdanov, 2015, Inversion of magnetotelluric data using integral equation approach with variable sensitivity domain: application to earthscope MT data. In Proceedings of the 2015 XSEDE Conference: Scientific Advancements Enabled by Enhanced Cyberinfrastructure (XSEDE ’15).

Zhdanov, M.S., Gribenko, A., Cuma M., and Green, M., 2012, Geoelectrical structure of the lithosphere and asthenosphere beneath the Northwestern United States: J Geol Geosci, Vol 1, Issue 2, 1000106, 1-6.

Michael S. Zhdanov, Robert B. Smith, Alexander Gribenko, Martin Cuma, and Marie Green, 2011, Three‐dimensional inversion of large‐scale EarthScope magnetotelluric data based on the integral equation method: Geoelectrical imaging of the Yellowstone conductive mantle plume: Geophysical Research Letters, 38, L08307.

Michael S. Zhdanov, Le Wan, Alexander Gribenko, Martin Čuma, Kerry Key, and Steven Constable, 2011, Large-scale 3D inversion of marine magnetotelluric data: Case study from the Gemini prospect, Gulf of Mexico: Geophysics, 76, F77–F87.

Zhdanov, M.S., Green, A., Gribenko, A., and M. Cuma, 2010, Large scale three-dimensional inversion of Earthscope MT data using integral equation method: Fizika Zemli, V. 8, 27-35.

Marine Publications

Tu, X., & Zhdanov, M. S. (2019). Least square migration of synthetic aperture data for towed streamer electromagnetic survey. In SEG Technical Program Expanded Abstracts 2019(pp. 1135-1139). Society of Exploration Geophysicists.

Endo, M., Cox, L., Sunwall, D., Zhdanov, M., & Asakawa, E. (2018, September). Geophysical exploration of submarine massive sulfide deposits based on integration of multimodal geophysical data. In 2nd Conference on Geophysics for Mineral Exploration and Mining.

Endo, M., Cox, L., Zhdanov, M., & Asakawa, E. (2018, June). Integrated Interpretation of Multimodal Geophysical Data for the Exploration of Submarine Hydrothermal Deposits. In 80th EAGE Conference and Exhibition 2018.

TU, X. and Zhdanov, M.S., 2018. Robust optimal synthetic aperture imaging of towed streamer electromagnetic data. In SEG Technical Program Expanded Abstracts 2018 (pp. 903-908). Society of Exploration Geophysicists. (Direct Download)

Michael S. Zhdanov, Daeung Yoon, Johan Mattsson, Rapid Imaging of Towed Streamer EM Data Using the Optimal Synthetic Aperture Method: IEEE Geoscience and Remote Sensing Letters (Volume: 14, Issue: 2, Feb. 2017).
Direct Download

Zhdanov, M.S., Endo, M., Čuma, M., Sunwall, D., Malmberg, J., McKay, A., Tshering, T., Midgley, J., 2016, Large-scale seismically guided anisotropic inversion of towed-streamer EM data in the Barents Sea: First Break, 34, November 2016, Special Topic.
Direct Download

Yoon, D., Zhdanov, M.S., Mattsson, J., Cai, H. and Gribenko, A., 2016. A hybrid finite-difference and integral-equation method for modeling and inversion of marine controlled-source electromagnetic data. Geophysics, 81(5), pp.E323-E336.

Zhdanov, Michael S., Masashi Endo, Martin Čuma, David Sunwall, Jenny-Ann Malmberg, Allan McKay, Tashi Tshering, and Jonathan Midgley. “Large-scale seismically guided anisotropic inversion of towed-streamer EM data in the Barents Sea.” First Break 34, no. 11 (2016): 75-79.

Cai, Hongzhu and Michael Zhdanov, 2016, Redatuming controlled-source electromagnetic data using Stratton–Chu type integral transformations, Journal of Applied Geophysics, 126.

Zhdanov, M.S., Yoon, D. and Mattsson, J., 2016. Rapid Imaging of Towed Streamer EM Data Using the Optimal Synthetic Aperture Method. IEEE Geoscience and Remote Sensing Letters.

Zhdanov, M., Endo, M., Sunwall, D., Čuma, M., Malmberg, J.A., Tshering, T., McKay, A. and Midgley, J., 2016. 3D inversion of the towed streamer EM data using the seismic constraints. In SEG Technical Program Expanded Abstracts 2016 (pp. 867-871). Society of Exploration Geophysicists.

Zhdanov, M., Yoon, D. and Mattsson, J., 2016. Rapid imaging of towed streamer EM data for reconnaissance offshore exploration using the optimal synthetic aperture method. In SEG Technical Program Expanded Abstracts 2016 (pp. 883-888). Society of Exploration Geophysicists.

Zhdanov, M.S., Endo, M., Sunwall, D., and Mattsson, J., 2015, Advanced 3D imaging of complex geoelectrical structures using towed streamer EM data over the Mariner field in the North Sea, First Break, 33, November, 59-63.

Yoon, D. and M. S. Zhdanov, 2015, Optimal synthetic aperture method for marine controlled source EM surveys: IEEE Geoscience and Remote Sensing Letters, Vol. 12, No. , 414 – 418.

Cai, H., & Cuma, M., & Zhdanov, M. S. 2015. Three-Dimensional Parallel Edge-Based Finite Element Modeling of Electromagnetic Data with Field Redatuming. Society of Exploration Geophysicists.

Daeung Yoon, Michael S. Zhdanov, Hongzhu Cai, and Alexander Gribenko (2015) A hybrid finite difference and integral equation method for modeling and inversion of marine CSEM data. Society of Exploration Geophysicists

Advanced methods of 3D inversion of towed streamer EM data for imaging offshore hydrocarbon reservoir. Michael S. Zhdanov, Masashi Endo, and Johan Mattsson. Proceedings of the 12th SEGJ International Symposium, Tokyo, Japan, 18-20 November 2015. November 2015, 5-8

Yoon, Daeung, and Michael S. Zhdanov. Optimal Synthetic Aperture Method for Marine Controlled-Source EM Surveys. IEEE Geoscience and Remote Sensing Letters (2015).

Michael S. Zhdanov, Masashi Endo, Daeung Yoon, Martin Čuma, Johan Mattsson, and Jonathan Midgley (2014). Anisotropic 3D inversion of towed-streamer electromagnetic data: Case study from the Troll West Oil Province, 2(3), SH97-SH113. doi: 10.1190/INT-2013-0156.1

Alexander Gribenko and Michael S. Zhdanov (2014) Anisotropic inversion of MCSEM data based on the integral equation method. SEG Technical Program Expanded Abstracts 2014: pp. 792-797. doi: 10.1190/segam2014-0245.1

Mattsson, J., M. S. Zhdanov, and M. Endo. 3D Anisotropic Inversion of Towed Streamer EM Data over the Mariner Field in the North Sea. 76th EAGE Conference and Exhibition 2014. 2014.

Zhdanov, M. S., Endo, M., Cox, L. H., Čuma, M., Linfoot, J., Anderson, C., Gribenko, A. V. (2014). Three‐dimensional inversion of towed streamer electromagnetic data. Geophysical Prospecting, 62(3), 552-572.

Cai, Hongzhu, et al. 3D controlled-source electromagnetic modeling in anisotropic medium using edge-based finite element method. Computers & Geosciences 73 (2014): 164-176.

Zhdanov, M.S., 2013, Focusing Controlled Sensitivity of Geophysical Data: Journal of Geology and Geosciences, S10-001.

Zhdanov, M.S., Endo, M, Cox, L.H., Cuma, M., Linfoot, J., Anderson, C., Black, N., and A. V. Gribenko, 2013, Three-dimensional inversion of towed streamer electromagnetic data, doi: 10.1111/1365-2478.12097.

Zhdanov, M. S., C. Anderson, M. Endo, L. H. Cox, M. Cuma, G. A. Wilson, N. Black, and A. V. Gribenko, 2012, 3D inversion of towed streamer EM data: A model study of the Harding field with comparison to CSEM: First Break, 30 (4), 71-74.

Zhdanov, M. S., M. Endo, M. Cuma, J. Linfoot, L. H. Cox, and G. A. Wilson, 2012, The first practical 3D inversion of towed streamer EM data from the Troll field trial: To be presented at SEG Exhibition and 82nd Annual Meeting, Las Vegas, Nevada, 4-9 November.

Zhdanov, M. S., M. Endo, M. Cuma, A. V. Gribenko, L. H. Cox, and G. A. Wilson, 2012, Massively-parallel 3D integral equation modeling and inversion: Presented at IAGA 21st Workshop on Electromagnetic Induction in the Earth, Darwin, Australia, 25-31 July.

Endo, M., M. S. Zhdanov, M. Cuma, J. Linfoot, L. H. Cox, and G. A. Wilson, 2012, Large-scale 3D inversion of towed streamer EM data: A case study from the Troll field trial: Presented at IAGA 21st Workshop on Electromagnetic Induction in the Earth, Darwin, Australia, 25-31 July.

Endo, M., N. Black, G. A. Wilson, and M. S. Zhdanov, 2012, An inversion analysis of time-lapse marine EM methods based on dynamic reservoir simulations of the Harding field, North Sea: Presented at SEG-SPEAAPG Workshop on New Advances in Integrated Reservoir Surveillance, La Jolla, California, 24-29 June.

Zhdanov, M. S., M. Endo, L. H. Cox, M. Cuma, G. A. Wilson, and C. Anderson, 2012, 3D inversion of towed streamer EM data using a moving sensitivity domain: Presented at 74th EAGE Conference and Exhibition, Copenhagen, Denmark, 4-7 June.

Zhdanov, M. S., 2012, Large-scale 3D inversion of airborne, land and marine EM data: Presented at ASEG 3D EM Workshop – An Updated on Capabilities, Brisbane, Australia, 1 March.

Zhdanov, M. S., 2012, KEYNOTE: Recent advances in large-scale 3D inversion of airborne electromagnetic and potential field data: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Zhdanov, M. S., A. V. Gribenko, M. Cuma, and G. A. Wilson, 2012, 3D mega-cell inversion of land, marine, and airborne natural field EM data: Presented at ASEG Natural EM Fields Workshop, Brisbane, Australia, 26 February.

Zhdanov, M. S., 2012, KEYNOTE: 4D monitoring of hydrocarbon reservoirs using electromagnetic and gravity methods: KACST-JCCP 1st Joint International Workshop for the Earth’s Surface and Subsurface 4D Monitoring, Riyadh, Saudi Arabia, 9-10 January.

Zhdanov, M. S., G. A. Wilson, A. V. Gribenko, L. H. Cox, M. Cuma, M. Endo, N. Black, and L. Wan, 2012, New advances in large-scale inversion of electromagnetic and potential field data for oil and gas exploration and production: KACST-JCCP 1st Joint International Workshop for the Earth’s Surface and Subsurface 4D Monitoring, Riyadh, Saudi Arabia, 9-10 January.

Zhdanov, M. S., M. Cuma, G. A. Wilson, E. P. Velikhov, N. Black, and A. V. Gribenko, 2011, Iterative electromagnetic migration for 3D CSEM inversion: Geophysical Prospecting, 59, 1101–1113, doi: 10.1111/j.1365-2478.2011.00991.x.

Zhdanov, M. S., L. Wan, A. Gribenko, M. Cuma, K. Key, and S. Constable, 2011, Large-scale 3D inversion of marine magnetotelluric data – case study from the Gemini prospect, Gulf of Mexico: Geophysics, 76, F77-F87, doi: 10.1190/1.3526299.

Gribenko, A. V., and M.S. Zhdanov, 2011, Joint 3D inversion of marine CSEM and MT data: SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628142.

Endo, M., N. Black, G. A. Wilson, and M. S. Zhdanov, 2011, Comparison of different marine EM methods for reservoir monitoring: Presented at AGU Fall Meeting, San Francisco, California, 5-9 December, abstract T51I-02.

Black, N., G. A. Wilson, and M. S. Zhdanov, 2011, Repeatability of marine CSEM imaging for reservoir monitoring: Presented at AGU Fall Meeting, San Francisco, California, 5-9 December, abstract T33V- 2314.

Zhdanov, M. S., B. A. Hobbs, M. Endo, L. H. Cox, N. Black, A. V. Gribenko, M. Cuma, G. A. Wilson, and E. Morris, 2011, 3D inversion of towed streamer EM data – A model study of the Harding field and comparison to 3D CSEM inversion: Presented at International Workshop on Gravity, Electrical, and Magnetic Methods, Beijing, 10-13 October.

Yoon, D., and M. S. Zhdanov, 2011, Controlled-sensitivities for marine CSEM surveys: Presented at SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628152.

Zhdanov, M. S., R. B. Smith, A. V. Gribenko, M. Cuma, and A. M. Green, 2011, Large-scale 3D inversion of EarthScope MT data from Yellowstone National Park: Presented at SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628140.

Zhdanov, M. S., B.A. Hobbs, M. Endo, L.H. Cox, N. Black, A.V. Gribenko, M. Cuma, G.A. Wilson, and E. Morris, 2011, 3D inversion of towed streamer EM data – a model study of the Harding field and comparison to 3D CSEM inversion: SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628150.

Black, N., G.A., Wilson, A.V., Gribenko, M.S., Zhdanov, and E., Morris, 2011, 3D inversion of time-lapse CSEM data based on dynamic reservoir simulations of the Harding field, North Sea: SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628166.

Zhdanov, M. S., A. V. Gribenko, and G. A. Wilson, 2011, 3D joint inversion of marine CSEM and MT data: Marine Electromagnetics Conference, San Diego, California, 20-23 June.

Black, N., G. A. Wilson, M. S. Zhdanov, and A. V. Gribenko, A. V., 2011, 3D inversion of time-lapse CSEM data for reservoir surveillance: Marine Electromagnetics Conference, San Diego, California, 20-23 June.

Zhdanov, M. S., N. Black, A. V. Gribenko, G. A. Wilson, and E. Morris, 2011, 3D inversion of time-lapse CSEM data from dynamic reservoir simulations of the Harding field, North Sea: Presented at 73rd EAGE Conference and Exhibition, Vienna, Austria, 23-26 May.

Zhdanov, M. S., E. P. Velikhov, M. Cuma, G. Wilson, N. Black, and A. Gribenko, 2010, Exploring multiple 3D inversion scenarios for enhanced interpretation of marine CSEM data – an iterative migration analysis of the Shtokman gas field in the Barents Sea, First Break, 28 (3), 95-101.

Zhdanov, M. S., 2010, Electromagnetic geophysics – notes from the past and the road ahead: Geophysics, 75 (5), 75A49-75A66, doi: 10.1190/1.3483901.

Wilson, G.A., M. Cuma, M.S. Zhdanov, A.V. Gribenko, and N. Black, 2010, A quantitative comparison of the effects of stabilizing functionals in 3D regularized inversion of marine CSEM data: Presented at AGU Fall Meeting, San Francisco, California, abstract T21A-2143.

Black, N., G.A., Wilson, and M.S., Zhdanov, 2010, 3D inversion of time-lapse CSEM data for reservoir monitoring: AGU Fall Meeting, San Francisco, California, abstract T21A-2142.

Cuma, M., G. A. Wilson, M. S. Zhdanov, E. P. Velikhov, N. Black, and A. V. Gribenko, 2010, Multiple inversion scenarios for enhanced interpretation of CSEM data using iterative migration: A case study for the Shtokman gas field, Barents Sea: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17-22 October, doi: 10.1190/1.3513851.

Hobbs, B., M. S. Zhdanov, A. Gribenko, A. Paterson, G. A. Wilson, and C. Clarke, 2010, 3D inversion of transient electromagnetic data: A case study from the Alvheim field, North Sea: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17-22 October, doi: 10.1190/1.3513856.

Black, N., G. A. Wilson, A. V. Gribenko, and M. S. Zhdanov, 2010, 3D inversion of time-lapse CSEM data for reservoir surveillance: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17- 22 October, doi: 10.1190/1.3513883.

Endo, M., X. Liu, and M. S. Zhdanov, 2010, Hybrid method for 3D modeling of electromagnetic fields in complex structures with inhomogeneous background conductivity: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17-22 October, doi: 10.1190/1.3513891.

Gribenko, A.V., A. M. Green, M. Cuma, and M. S. Zhdanov, 2010, Efficient 3D inversion of MT data using integral equations and the receiver footprint approach – application to the large-scale inversion of EarthScope data: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17-22 October, doi: 10.1134/S1069351310080045.

Wang, S., and M. S. Zhdanov, 2010, Removal of the airwave effect on marine CSEM data by separation of the main part of the anomalous field: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17-22 October, doi: 10.1190/1.3513887.

Zhdanov, M. S., M. Cuma, G. A. Wilson, N. Black, and A. Gribenko, 2010, Exploring multiple 3D inversion scenarios for enhanced interpretation of marine electromagnetic data: Presented at Brazilian Geophysical Society Non-Seismic Geophysics Forum, Rio de Janeiro, Brazil, 18-21 September.

Hobbs, B., M. S. Zhdanov, A. Gribenko, G. A. Wilson, S. Tarkhan, and A. Paterson, 2010, 3D inversion of time-domain electromagnetic data from the Alvheim field, North Sea: Presented at ASEG 21st Geophysical Conference and International Exhibition, Sydney, Australia, 22-26 August, doi: 10.1071/ ASEG2010ab086.

Zhdanov, M. S., M. Cuma, and G. Wilson, 2010, Large-scale 3D iterative migration of marine controlledsource electromagnetic data with focusing regularization: Presented at Progress in Electromagnetic Research Symposium, Boston, Massachusetts, 5-8 July.

Zhdanov, M. S., M. Cuma, and G. Wilson, 2010, 3D iterative migration of marine controlled-source electromagnetic data with focusing regularization: Presented at 72nd EAGE Conference and Exhibition, Barcelona, Spain, 14-17 June.

Hobbs, B., M. S. Zhdanov, A. Gribenko, A. Paterson, G. Wilson, and C. Clarke, 2010, 3D inversion of transient EM data: A case study from the Alvheim field, North Sea: Presented at 72nd EAGE Conference and Exhibition, Barcelona, Spain, 14-17 June.

Zhdanov, M. S., A. M. Green, A. V. Gribenko, M. Cuma, and G. A. Wilson, 2010, Large-scale threedimensional inversion of EarthScope MT data from the northwestern United States: Presented at International Workshop on Electromagnetic Sounding in memory of Mark Berdichevsky and Peter Weidelt, Moscow, Russia, 10-13 June.

Hobbs, B.A., M. S. Zhdanov, A. Gribenko, S. Tarkhan, A. Paterson, G. Wilson, and C. Clarke, 2010, 3D inversion of transient EM data from the North Sea: Presented at GeoCanada 2010, Calgary, Alberta, 10- 14 May.

Zhdanov, M. S., M. Cuma, A. Gribenko, G. Wilson, and N. Black, 2010, 3D inversion of marine CSEM data: A feasibility study for the Shtokman gas field in the Barents Sea: Presented at International Workshop on Electrical, Gravity and Magnetic Methods, Capri, Italy, 11-14 April.

Gribenko, A. V., and M. S. Zhdanov, 3D joint inversion of marine magnetotelluric and controlled-source electromagnetic data: Presented at EAGE International Conference and Exhibition, Saint Petersburg, Russia, 2-5 April.

Zhdanov, M.S., Endo, M., Čuma, M., Sunwall, D., Malmberg, J.A., McKay, A., Tshering, T. and Midgley,

Potential Fields Publications

Xu, Z., Wan, L., Han, M., Zhdanov, M. S., & Mao, Y. (2019). Joint inversion of gravity gradiometry data by model-weighted clustering in logarithmic space. In SEG Technical Program Expanded Abstracts 2019 (pp. 1779-1783). Society of Exploration Geophysicists.

Jorgensen, M., & Zhdanov, M. S. (2019). Imaging Yellowstone magmatic system by the joint Gramian inversion of gravity and magnetotelluric data. Physics of the Earth and Planetary Interiors, 292, 12-20.

Tu, X., & Zhdanov, M. S. (2019). Enhancing and sharpening the migration images of gravity field and its gradients. In SEG Technical Program Expanded Abstracts 2019 (pp. 1704-1708). Society of Exploration Geophysicists.

Lin, W., & Zhdanov, M. S. (2019). The Gramian Method of Joint Inversion of the Gravity Gradiometry and Seismic Data. Pure and Applied Geophysics, 176(4), 1659-1672.

Lin, W., & Zhdanov, M. S. (2019). The Gramian Method of Joint Inversion of the Gravity Gradiometry and Seismic Data. Pure and Applied Geophysics, 1-14.

Jorgensen, M., & Zhdanov, M. S. (2018). Joint 3D inversion of gravity and MT data using Gramian constraints: A case study from Yellowstone. In SEG Technical Program Expanded Abstracts 2018 (pp. 2307-2311). Society of Exploration Geophysicists.

Endo, M., Gribenko, A., Sunwall, D., Zhdanov, M. S., Miura, T., Mochinaga, H. (2018). Integrated interpretation of multimodal geophysical data for exploration of geothermal resources-Case study: Yamagawa geothermal field in Japan. In SEG Technical Program Expanded Abstracts 2018 (pp. 2322-2326). Society of Exploration Geophysicists.

Lin, W. and Zhdanov, M.S., 2018. Joint multinary inversion of gravity and magnetic data using Gramian constraints. Geophysical Journal International, 215(3), pp.1540-1557. (Direct Download)

Zhdanov, M.S. and Čuma, M., 2018. Joint inversion of multimodal data using focusing stabilizers and Gramian constraints. In SEG Technical Program Expanded Abstracts 2018 (pp. 1430-1434). Society of Exploration Geophysicists. (Direct Download)

Wan, L., Han, M., Ali AlJanobi, H. and Zhdanov, M.S., 2018. Feasibility study of gravity gradiometry monitoring of CO2 sequestration in deep reservoirs using surface and borehole data. In SEG Technical Program Expanded Abstracts 2018(pp. 1450-1454). Society of Exploration Geophysicists. (Direct Download)

Endo, M., Gribenko, A., Sunwall, D., Zhdanov, M.S., Miura, T., Mochinaga, H., Aoki, N. and Mouri, T., 2018. Integrated interpretation of multimodal geophysical data for exploration of geothermal resources-Case study: Yamagawa geothermal field in Japan. In SEG Technical Program Expanded Abstracts 2018 (pp. 2322-2326). Society of Exploration Geophysicists. (Direct Download)

Zhdanov, M.S.; Alfouzan, F.A.; Cox, L.; Alotaibi, A.; Alyousif, M.; Sunwall, D.; Endo, M. Large-Scale 3D Modeling and Inversion of Multiphysics Airborne Geophysical Data: A Case Study from the Arabian Shield, Saudi Arabia. Minerals 2018, 8, 271.

Michael S. Zhdanov and Wei Lin (2017). Adaptive multinary inversion of gravity and gravity gradiometry data. GEOPHYSICS, 82(6), G101-G114.
Direct Download

Hongzhu Cai; Michael S. Zhdanov, 2017, Joint Inversion of Gravity and Magnetotelluric Data for the Depth-to-Basement Estimation: IEEE Geoscience and Remote Sensing Letters ( Volume: 14, Issue: 8, Aug. 2017 )
Direct Download

Cai, H., and M. S. Zhdanov, 2016, Three-dimensional inversion of magnetotelluric data for the sediment-basement interface: IEEE Geoscience and Remote Sensing Letters, 13 (3), 349-35.

Martin Cuma and Michael S. Zhdanov, 2017, Continental-scale joint inversion of Alaska and Yukon gravity and magnetic data: First Break, 35, No 9, September 2017.
Direct Download

Michael Zhdanov, Yue Zhu, Masashi Endo and Yuri Kinakin, 2016, Novel approach to joint 3D inversion of EM and potential field data using Gramian constraints: First Break, 34, April 2016, pp. 59 – 64.
Direct Download

Wan, L., Han, M. and Zhdanov, M., 2016. Joint iterative migration of surface and borehole gravity gradiometry data. In SEG Technical Program Expanded Abstracts 2016 (pp. 1607-1611). Society of Exploration Geophysicists.

Lin, W. and Zhdanov, M., 2016. 3D inversion of gravity and gravity gradiometry data using multinary transformation of the model parameters. In SEG Technical Program Expanded Abstracts 2016 (pp. 1516-1520). Society of Exploration Geophysicists.

Zhdanov, M. and Cai, H., 2016. Redatuming controlled-source electromagnetic data using Stratton–Chu type integral transformations. Journal of Applied Geophysics, 126, pp.1-12.

Zhu, Y., Zhdanov, M. S., & Cuma, M. 2015. Inversion of TMI Data for the Magnetization Vector Using Gramian Constraints. Society of Exploration Geophysicists.

Cai H. and M. S. Zhdanov, 2015, Modeling and inversion of magnetic anomalies caused by sediment-basement interface using 3D Cauchy-type integrals: IEEE Geoscience and Remote Sensing Letters, Vol. 12, No. 3, 477 -481.

Cai H. and M. S. Zhdanov, 2015, Application of Cauchy-type integrals in developing effective methods for depth-to-basement inversion of gravity and gravity gradiometry data: Geophysics, 80, 1180-1184.

Cai, Hongzhu, and Michael S. Zhdanov. Modeling and Inversion of Magnetic Anomalies Caused by Sediment–Basement Interface Using Three-Dimensional Cauchy-Type Integrals. IEEE Geoscience and Remote Sensing Letters (2015).

Cai, H., and M.S. Zhdanov, 2014, Modeling and Inversion of Magnetic Anomalies Caused by Sediment–Basement Interface Using Three-Dimensional Cauchy-Type Integrals: IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, accepted

Yue Zhu, Martin Cuma, Michael S. Zhdanov, and Yuri Kinakin (2014) Joint inversion of airborne gravity gradiometry and magnetic data from the Lac de Gras region of the Northwest Territories of Canada. SEG Technical Program Expanded Abstracts 2014: pp. 1709-1713. doi: 10.1190/segam2014-0246.1

Cai, H., & Zhdanov, M. (2014, October). Inversion of Gravity Data in the Big Bear Lake Area to Recover Depth to Basement Using Cauchy-Type Integrals. In 2014 SEG Annual Meeting. Society of Exploration Geophysicists.

Cuma, M., and M.S. Zhdanov, 2014, Massively parallel regularized 3D inversion of potential fields on CPUs and GPUs, 62, 80-87.

Zhdanov, M.S., and Liu, X., 2013, 3-D Cauchy-type integrals for terrain correction of gravity and gravity gradiometry data: Geophysical Journal International, 194, 249-268.

Zhdanov, M.S., and Cox, L.H., 2013, Multinary inversion for tunnel detection: IEEE Geoscience and Remote Sensing Letters, 1545-598X, 1-4.

Zhdanov, M.S., Cai, H., and Wilson, G., 2012, 3D inversion of SQUID magnetic tensor data: Journal of Geology and Geosciences, Vol. 1, No. 1, 1000104.

Zhdanov, M.S., Gribenko, A.V., Wilson, G.A., and Funk, C., 2012, 3D joint inversion of geophysical data with Gramian constraints: A case study from the Carrapateena IOCG deposit, South Australia: The Leading Edge, November, 1382-1388.

Cuma, M., G. A. Wilson, and M. S. Zhdanov, 2012, Large-scale 3D inversion of potential field data: Geophysical Prospecting, 60 (6), 1186–1199, doi: 10.1111/j.1365-2478.2011.01052.x

Wilson, G. A., L. H. Cox, M. Cuma, and M. S. Zhdanov, 2012, Inverting airborne geophysical data for mega-cell and giga-cell 3D earth models: The Leading Edge, 31 (4), 936-941, doi: 10.1190/​1.3694899.

Zhdanov, M. S., A. V. Gribenko, and G. A. Wilson, 2012, Generalized joint inversion of multimodal geophysical data using Gramian constraints: Geophysical Research Letters, 39, L09301, doi: 10.1029/ 2012GL051233.

Zhdanov, M. S., H. Cai, and G. A. Wilson, 2012, Migration transformation of two-dimensional magnetic vector and tensor fields: Geophysical Journal International, 189 (3), 1361-1368, doi: 10.1111/j.1365- 246X.2012.05453.x.

Zhdanov, M. S., X. Liu, L. Wan, and G. A. Wilson, 2012, 3D migration for rapid imaging of total magnetic intensity data: Geophysics, 77 (2), J1-J5, doi: 10.1190/GEO2011-0425.1.

Mims, J., M. Cuma, G. Wilson, J. Mataragio, and M. S. Zhdanov, 2012, Recent advances in airborne gravity gradiometry – A case study from the Bathurst Mining Camp: Presented at KEGS 2012 PDAC Symposium, Toronto, Ontario, 3 March.

Cuma, M., M. S. Zhdanov, G. A. Wilson, and L. Polome, 2012, 3D inversion of full tensor magnetic gradiometry data for remanent magnetization: Presented at 74th EAGE Conference and Exhibition, Copenhagen, Denmark, 4-7 June.

Zhdanov, M. S., A. V. Gribenko, G. A. Wilson, and C. Funk, 2012, 3D joint inversion of geophysical data with Gramian constraints: A case study from the Carrapateena IOCG deposit, South Australia: The Leading Edge, 31 (11), 936-941.

Zhdanov, M. S., G. A. Wilson, and X. Liu, 2012, A new method of terrain correcting airborne gravity gradiometry data using 3D Cauchy-type integrals: To be presented at SEG Exhibition and 82nd Annual Meeting, Las Vegas, Nevada, 4-9 November.

Fraser, S. J., G. A. Wilson, L. H. Cox, M. Cuma, M. S. Zhdanov, and M. A. Vallee, 2012, Self-organizing maps for pseudo-lithological classification of 3D airborne electromagnetic, gravity gradiometry and magnetic inversions: Presented at ASEG 22nd Geophysical Conference and Exhibition, Brisbane, Australia, 26-29 February.

Zhdanov, M. S., G. A. Wilson, A. V. Gribenko, L. H. Cox, M. Cuma, M. Endo, N. Black, and L. Wan, 2012, New advances in large-scale inversion of electromagnetic and potential field data for oil and gas exploration and production: KACST-JCCP 1st Joint International Workshop for the Earth’s Surface and Subsurface 4D Monitoring, Riyadh, Saudi Arabia, 9-10 January.

Wilson, G. A., 2012, Large-scale 3D earth modeling using mega-cell inversions of airborne EM data and giga-cell inversions of potential field data: Presented at KEGS, Ottawa, Canada, October.

G.A. Wilson, S.J. Fraser, L. H. Cox, M. Cuma, M.S. Zhdanov, and M. Vallee, 2011, Lithological classification from data mining of 3D inversion of airborne electromagnetic, gravity gradiometry and magnetic data – a case study from Reid-Mahaffy, Ontario: Presented at SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628157.

Zhdanov, M. S., X. Liu, L. Wan, M. Cuma, and G.A. Wilson, 2011, 3D potential field migration for rapid imaging of gravity gradiometry data – a case study from Broken Hill, Australia, with comparison to 3D regularized inversion: SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi:10.1190/1.3628202.

Zhdanov, M. S., M. Cuma, G. A. Wilson, and L. Polome, 2011, 3D inversion of full tensor magnetic gradiometry data: Geosynthesis, Cape Town, South Africa, 28 August – 3 September.

Wilson, G. A., M. Cuma, and M. S. Zhdanov, 2011, Massively parallel 3D inversion of airborne gravity gradiometry data – a case study from the Vredefort dome: Geosynthesis, Cape Town, South Africa, 28 August – 3 September.

Wilson, G. A., M. Cuma, and M. S. Zhdanov, 2011, Large-scale 3D inversion of potential field data: Presented at 73rd EAGE Conference and Exhibition, Vienna, Austria, 23-26 May.

Zhdanov, M. S., X. Liu, G. A. Wilson, and L. Wan, 2011, Potential field migration for rapid imaging of gravity gradiometry data: Geophysical Prospecting, 59, 1052-1071, doi: 10.1111/j.1365- 2478.2011.01005.x.

Wilson, G. A., M. Cuma, and M. S. Zhdanov, 2011, Massively parallel 3D inversion of gravity and gravity gradiometry data: Preview, no. 152, 29-34, doi: 10.1071/PVv2011n152p29.

Zhdanov, M. S., X. Liu, and G. A. Wilson, 2010, Potential field migration for rapid imaging of entire gravity gradiometry surveys, First Break, 28 (10), 45-49.

Zhdanov, M.S., X. Liu, and G. A. Wilson, 2010, Rapid imaging of gravity gradiometry data using 2D potential field migration: Presented at SEG Exhibition and 80th Annual Meeting, Denver, Colorado, 17- 22 October, doi: 10.1190/1.3513044.

Zhdanov, M. S., X. Liu, and G. A. Wilson, 2010, 3D potential field migration for rapid interpretation of gravity gradiometry data: Presented at Brazilian Geophysical Society Non-Seismic Geophysics Forum, Rio de Janeiro, Brazil, 18-21 September.

Zhdanov, M. S., X. Liu, and G. Wilson, 2010, 2D potential field migration for rapid interpretation of gravity gradiometry data: Presented at International Workshop on Electrical, Gravity and Magnetic Methods, Capri, Italy, 11-14 April.

Wilson, G. A., M. Cuma, L. H. Cox, and M. S. Zhdanov, 3D giga-cell inversion of Bathurst Mining Camp (BMC) gravity gradiometry data: Presented at Exploration, Mining and Petroleum, New Brunswick, Fredericton, New Brunswick, 6-8 November.

Zhdanov, M. S., M. Cuma, G. A. Wilson, and L. Wan, Massively parallel 3D regularized inversion of gravity and magnetic data: Presented at International Workshop on Gravity, Electrical, and Magnetic Methods, Beijing, 10-13 October.

Zhdanov, M. S., H. Cai, and G. A. Wilson, 3D inversion of full tensor magnetic gradiometry (FTMG) data: SEG Exhibition and 81st Annual Meeting, San Antonio, USA, 18-23 September, doi: 10.1190/1.3628195.

Zhdanov, M. S., M. Cuma, G. A. Wilson, and L. Polome, 3D magnetization vector inversion for SQUIDbased full tensor magnetic gradiometry: To be presented at SEG Exhibition and 82nd Annual Meeting, Las Vegas, Nevada, 4-9 November.

Seismic Publications

Lin, W., & Zhdanov, M. S. (2019). The Gramian Method of Joint Inversion of the Gravity Gradiometry and Seismic Data. Pure and Applied Geophysics, 1-14.

Malovichko, M., Khokhlov, N., Yavich, N., & Zhdanov, M. (2018). Acoustic 3D modeling by the method of integral equations. Computers & geosciences, 111, 223-234.

Yavich, N., Malovichko, M., Khokhlov, N., & Zhdanov, M. (2018, September). Preconditioning the Time-Harmonic Acoustic Wave Equation Based on a Special Contraction Operator Transformation. In 2nd Conference on Geophysics for Mineral Exploration and Mining.

Rock Properties Publications

Endo, M., Gribenko, A., Sunwall, D., Zhdanov, M. S., Miura, T., Mochinaga, H. (2018). Integrated interpretation of multimodal geophysical data for exploration of geothermal resources-Case study: Yamagawa geothermal field in Japan. In SEG Technical Program Expanded Abstracts 2018 (pp. 2322-2326). Society of Exploration Geophysicists.

Zhdanov, M. S., Burtman, V., Endo, M., & Lin, W. (2018). Complex resistivity of mineral rocks in the context of the generalised effective‐medium theory of the induced polarisation effect. Geophysical Prospecting, 66(4), 798-817.

Zhdanov, M., M .Endo, L. Cox, D. Sunwall, 2018, Effective-Medium Inversion of Induced Polarization Data for Mineral Exploration and Mineral Discrimination: Case Study for the Copper Deposit in Mongolia: Minerals, 8(2), 68.

Burtman, Vladimir, et al. “Complex resistivity of mineral rocks in the context of the generalized effective-medium theory of the IP effect.” SEG Technical Program Expanded Abstracts 2016. Society of Exploration Geophysicists, 2016. 2238-2242.

Lin, W., Burtman, V., Zhdanov, M., Endo, M. and Takakura, S., 2016. Effective-medium modeling of the induced-polarization effect in multiphase artificial mineral rocks. In SEG Technical Program Expanded Abstracts 2016 (pp. 1029-1033). Society of Exploration Geophysicists.

Xu Z. and M. S. Zhdanov, 2015, Three-Dimensional Cole-Cole Model Inversion of Induced Polarization Data Based on Regularized Conjugate Gradient Method: IEEE Geoscience and Remote Sensing Letters, Vol. 12, No. 6, D81-D94.

Lin, W., Zhdanov, M. S., Burtman, V., & Gribenko, A. 2015. GEMTIP Inversion of Complex Resistivity Data using a Hybrid Method based on a Genetic Algorithm with Simulated Annealing and Regularized Conjugate Gradient Method. Society of Exploration Geophysicists.

Burtman, V., Endo, M., Marsala, A., & Zhdanov, M. S. 2015. Feasibility Study of Application of Nanoparticles in Complex Resistivity (CR) Reservoir Monitoring. Society of Exploration Geophysicists.Burtman, V., and M. S. Burtman, Vladimir and Michael Zhdanov, 2015, Induced polarization effect in reservoir rocks and its modeling based on generalized effective-medium theory: Resource-Efficient Technologies 1, 34–48.

Xu Z. and M. S. Zhdanov, 2015, Three-Dimensional Cole-Cole Model Inversion of Induced Polarization Data Based on Regularized Conjugate Gradient Method: IEEE Geoscience and Remote Sensing Letters, Vol. 12, No. 6, D81-D94.

Burtman, V. , Fu, H. and Zhdanov, M. (2014) Experimental Study of Induced Polarization Effect in Unconventional Reservoir Rocks. Geomaterials, 4, 117-128. doi: 10.4236/gm.2014.44012.

Burtman, V. , Fu, H. and Zhdanov, M. (2014) Spectral Induced Polarization Effect in Unconventional Reservoir Rocks, SEG 33, Expanded Abstracts, 5 pages

Zhdanov, M.S., Burtman, V., Endo, M., and Wilson, G.A., 2012, Laboratory-based GEMTIP analysis of spectral IP data for mineral discrimination: 82nd Annual International Meeting, SEG, Las Vegas, Nevada.

Burtman, V., Endo, M., Zhdanov, M.S., and Ingeman-Nielsen, T., 2011, High-frequency induced polarization measurements of hydrocarbon-bearing rocks: 81st Annual International Meeting, SEG, San Antonio, Texas.

Burtman, V., Gribenko, A., and Zhdanov, M.S., 2010, Advances in experimental research of induced polarization effect in reservoir rocks: 80th Annual International Meeting, SEG, Denver, Colorado.

Zhdanov, M., and Burtman, V., 2009, Induced polarization in hydrocarbon-saturated sands and sandstones: Experimental study and general effective medium modeling: 79th Annual International Meeting, SEG, Houston, Texas.