Читать книгу Mathematics in Computational Science and Engineering - Группа авторов - Страница 56
References
Оглавление1. TIKHONOV, A., and ARSENIN, V., Solution of Ill-Posed Problems; V.H. Winston and Sons, Washington, 1978.
2. KABANIKHIN, S.I., Definitions and Examples of Inverse and ill-Posed Problems; J. Inverse Ill-Posed Problems 16, 317–357 DOI 10.1515 / JIIP.2008.069, 2008.
3. NARAYAN, S., Subsurface-to-surface Resistivity Method for Monitoring In Situ Processes Using a Combination of Surface and Subsurface Electrodes; PhD Thesis, Department of Earth Sciences, University of Waterloo, Waterloo, Canada, 1994.
4. BARTEL, C., and SEAVEY, W., Instrumentation for In-situ Coal Gasification; III Electrical Techniques for Remote Monitoring; In Situ, Vol. 2, pp. 247-269, 1978.
5. WILT, M.J., and TSANG, C.F., Monitoring of Surface Contaminants with Borehole/surface Resistivity Measurements; Proc. Surface and Borehole Geophysical Methods in Ground Water Investigation, Fort Worth, TX, February 12 – 14, 1985.
6. BEVC, D., and MORRISON, H.F., Borehole-to-Surface Electrical Resistivity Monitoring of a Salt Water Injection Experiment; Geophysics, Vol. 56, pp. 769-777, 1991.
7. NARAYAN, S., Vertical Resolution for Two-dimensional Dipole-Dipole Resistivity Inversion; Proceedings of 62 International Annual Meeting of Society of Exploration Geophysicists, New Orleans, USA, EM2.3, pp. 431-434, 1992.
8. DAILY, W., RAMIREZ, A., LABRECQUE, D., and NITAO, J., Electrical Resistivity Tomography of Vadose Water Movement; Water Resource Research, Vol. 28, pp. 1429-1442, 1992.
9. NARAYAN, S., DUSSEAULT, M.B., and NOBES, D.C., Inversion Techniques Applied to Resistivity Inverse Problems; Inverse Problems 10 (1994) 669-686. Printed in the UK.
10. MADSEN, L.M., FIANDACA, G., and AUKEN, E., 3-D Time-domain Spectral Inversion of Resistivity and Full-decay Induced Polarization Data— Full Solution of Poisson’s Equation and Modelling of the Current Waveform; Geophysical Journal International, Volume 223, Issue 3, Pages 2101–2116, 2020. https://doi.org/10.1093/gji/ggaa443.
11. PANG, Y., NIE, L., LIU, B., LIU, Z., WANG N., Multiscale Resistivity Inversion Based on Convolutional Wavelet Transform; Geophysical Journal International, Volume 223, Issue 1, Pages 132–143, 2020. https://doi.org/10.1093/gji/ggaa302.
12. DEVI, A., ISRAIL, M., SINGH, A., GUPTA, P.K., YOGESHWAR, P., TEZKAN, B., Imaging of Groundwater Contamination Using 3D Joint Inversion of Electrical Resistivity Tomography and Radio Magnetotelluric Data: A case Study from Northern India; Near Surface Geophysics, Volume 18, Issue 3, Pages 261-274, 2020. https://doi.org/10.1002/nsg.12092.
13. DAHLIN T., The Development of DC Resistivity Imaging Techniques; Computers & Geosciences Volume 27, 1019–1029, 2001.
14. AL‐SAADI, O. S., SCHMIDT, V., BECKEN, M. and FRITSCH, T., Very‐high‐resolution Electrical Resistivity Imaging of Buried Foundations of a Roman Villa Near Nonnweiler, Germany; Archaeological Prospection, Volume 25, Issue 3, 2018. https://onlinelibrary.wiley.com/doi/abs/10.1002/arp.1703.
15. AHMAD, S.U., Analytical and Iterative Regularization Methods for Nonlinear Ill-Posed Inverse Problems: Applications to Diffuse Optical and Electrical Impedance Tomography; In Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy Mathematics, Clemson University, South Carolina, USA, 2019.
16. CARRIER A., FISCHANGER F., GANCE J., COCCHIARARO G., MORELLI G., and LUPI M., Deep Electrical Resistivity Tomography for the Prospection of Low- to- Medium-Enthalpy Geothermal Resources; Geophysical Journal International, 219(3):2056-2072, 2019.
17. SCHMIDT-HATTENBERGER, C., BERGMANN, P., BÖSING, D., LABITZKE, T., MÖLLER, M., SCHRÖDER, S., WAGNER, F., SCHÜTT, H., Electrical Resistivity Tomography (ERT) for Monitoring of CO2 Migration - from Tool Development to Reservoir Surveillance at the Ketzin pilot Site, Energy Procedia 37, 4268 – 4275, 2013.
18. LIU B., GUO Q., LI S., LIU B., REN Y, PANG, Y., GUO XU, LIU L., and JIANG P., Deep Learning Inversion of Electrical Resistivity Data; IEEE Transactions on Geoscience and Remote Sensing, 2020.
19. NAVEEN KUMAR T., RAMA RAO P., and NAGANJANEYULU K., Electrical Resistivity Imaging (ERI) Using Multi-electrodes for Studying Subsurface Formations in Cauvery Plains; Advances in Applied Science Research, 6(5): 47-53, 2015.
20. MAJA BRIŠKI M., STROJ A., KOSOVI´I., and BOROVI S., Characterization of Aquifers in Metamorphic Rocks by Combined Use of Electrical Resistivity Tomography and Monitoring of Spring Hydrodynamics; Geosciences, 10, 137, 2020. doi:10.3390/geosciences10040137.
21. HOHMANN, G.W., and RAICHE, A.P., Inversion of Controlled-Source Electromagnetic Data, in Nabighian, M.N., Ed., Electromagnetic Methods in Geophysics, 1: Society of Exploration Geophysicist, Investigation in Geophysics, no. 3, p. 469-503, 1988.
22. TRIPP, A.C., HOHMANN, G.W., and SWIFT, C.M., Two dimensional resistivity inversion; Geophysics, v. 49, p. 708 1717, 1984.
23. CONSTABLE, S.C., PARKER, R.L., and CONSTABLE, C.G., Occam’s Inversion: A Practical Algorithm for Generating Smooth Models from Electromagnetic Sounding Data; Geophysics, v. 52, p. 289-300, 1987.
24. ORISTAGLIO, M.L., AND WORTHINGTON, M.H., Inversion of Surface and Borehole Electromagnetic Data for Two-Dimensional Electrical Conductivity Models; Geophysical Prospecting, v. 28, p. 633-657, 1980.
25. EATON, P.A., Three-Dimensional Electromagnetic Inversion: Ph.D. thesis, University of Utah, 1987.
26. TELFORD, W. M., GELDART, L. P., and SHERIFF, R.E., Applied Geophysics, Cambridge University Press, 1976, Revised Edition, 1990.
27. LANCZOS, C., 1961, Linear Differential Operators: Van Nostrand Company, Ltd., 1961.
28. NARAYAN, S., and DUSSEAULT, M.B., Sensitivity Studies of Resistivity Monitoring for Shallow Enhanced Recovery Processes - A Numerical Case History; Journal of Canadian Petroleum Technology, February 2000, Volume 39, No. 2, 2000.
29. GREAVES, R.J., BEYDOUN, W.B., and SPIES, B.R., New Dimensions in Geophysics for Reservoir Monitoring; SPE Formation Evaluation, pp. 141-150, June 1991.
30. WARD, S.H., Resistivity and induced polarization methods; Geotechnical and Environmental Geophysics - I, S.H. Ward (ed.), Society of Exploration Geophysicists, Tulsa, Oklahoma, 97-99, 1990.
31. OLDENBURG, D.W., The Interpretation of Direct-Current Resistivity Measurements; Geophysics 43, No. 3, 610-25, 1978.
32. NARAYAN, S., and DUSSEAULT, M.B., Subsurface-to-surface Resistivity Methods for Monitoring Steam floods—A Theoretical Study; Proceedings of 8th International Conf. of the Association for Computer Methods and Advances in Geomechanics, Morgantown, WV, USA, Vol. 2, pp. 2113-2116, May.
1 *Email: narayan.satyendra@gmail.com