The Application of Non-Standard GPR Techniques for the Examination of River Dikes

[1] Annan A.P., Ground Penetrating Radar – Workshop Notes, Sensor and Software Inc., Canada 2001.Search in Google Scholar

[2] Asch T.H., Deszcz-Pan M., Burton B.L., Ball L.B., Geophysical Characterization of American River Levees (Sacramento, California) Using Electromagnetics, Capacitively-Coupled Resistivity and DC Resistivity, U.S. Geological Survey Open-File Report, Reston USA 2008.10.3133/ofr20081109Search in Google Scholar

[3] Bohidar R.N., Hermance J.F., The GPR Refraction Method. Geophysics, 67(5)/2002, 1474–1485.10.1190/1.1512792Search in Google Scholar

[4] Daniels J.J., Wielopolski L., Radzevicius S., Bookshar J., 3D GPR Polarization Analysis for Imaging Complex Objects, Proceedings of 16th SAGEEP Conference, San Antonio USA 2003, 585–597.10.4133/1.2923205Search in Google Scholar

[5] Forte E., Pipan M., Review of Multi-Offset GPR Applications: Data Acquisition, Processing and Analysis, Signal Processing 132/2016, 210–220.10.1016/j.sigpro.2016.04.011Search in Google Scholar

[6] Gołębiowski T., Introduction to Numerical Modelling of Electromagnetic Wave Field on the Example of Georadar Data Recorded in River Dike, Technical Transactions, 2-Ś/2015, 39–53.Search in Google Scholar

[7] Gołębiowski T., Modelowanie numeryczne pola georadarowego w badaniach gruntów skażonych substancjami ropopochodnymi, Rozprawa doktorska, WGGiOŚ AGH, Kraków 2005.Search in Google Scholar

[8] Gołębiowski T., Numeryczne modelowanie pola georadarowego przy pomocy metody FDTD, Geoinformatica Polonica 8/2006, 23–35.Search in Google Scholar

[9] Gołębiowski T., Changeable-Offset GPR Profiling for Loose Zones Detection in the Levees, Proceedings of 14th European Meeting of Environmental and Engineering Geophysics, Cracow 2008, 1–5.10.3997/2214-4609.20146331Search in Google Scholar

[10] Gołębiowski T., Velocity Analysis in the GPR Method for Loose Zones Detection in the River Embankments, Proceedings of XIII International Conference on Ground Penetrating Radar, Lecce 2010, 428–433.10.1109/ICGPR.2010.5550220Search in Google Scholar

[11] Gołębiowski T., Zastosowanie metody georadarowej do detekcji i monitoringu obiektów o stochastycznym rozkładzie w ośrodku geologicznym, Rozprawy – Monografie AGH, Kraków 2012.Search in Google Scholar

[12] Gołębiowski T., Tomecka-Suchoń S., Farbisz J., Zastosowanie kompleksowych metod geofizycznych do nieinwazyjnego badania stanu technicznego wałów przeciwpowodziowych, Sympozjum Europejskie „Współczesne problemy ochrony przeciwpowodziowej”, Paryż–Orlean 2012, 233–241.Search in Google Scholar

[13] Gołębiowski T., Tomecka-Suchoń T., GPR Fractures Detection Using Changeable Antennae Orientation, Proceedings of 5th International Conference and Exhibition, St. Petersburg 2012.10.3997/2214-4609.20143726Search in Google Scholar

[14] Grote K., Hubbard S., Rubin Y., Field-scale Estimation of Volumetric Water Content Using Ground Penetrating Radar Ground Wave Techniques, Water Resources Research 39(11)/2003, 1–13.10.1029/2003WR002045Search in Google Scholar

[15] Guy E.D., Daniels J.J., Radzevicius S., Demonstration of Using Crossed Dipole GPR Antennae for Site Characterization, Geophysical Research Letters, 26(22)/1999, 3421–3424.10.1029/1999GL008365Search in Google Scholar

[16] Hayashi K., Inazaki T., Integrated Geophysical Exploration for Safety Assessment of Levee Systems, Proceedings of Geo-Congress, San Diego USA 2013, 1–10.10.1061/9780784412787.019Search in Google Scholar

[17] Hubbard S.S, Redman J.D., Annan A.P., Measuring Soil Water Content with Ground Penetrating Radar, Review Vadose Zone Journal 2/2003, 476–491.10.2136/vzj2003.4760Search in Google Scholar

[18] Inazaki T., Sakamoto T., Geotechnical Characterization of Levee by Integrated Geophysical Surveying, Proceedings of International Symposium on Dam Safety and Detection of Hidden Troubles of Dams and Dikes, Xi’an 2005, 1–8.Search in Google Scholar

[19] Jol H., Ground Penetrating Radar: Theory and Applications, Elsevier Science Ed., The Netherlands 2009.Search in Google Scholar

[20] Lane J.W. Jr., Ivanov J., Day-Lewis F.D., Clemens D., Patev R., Miller R.D., Levee Evaluation Using MASW: Preliminary Findings from the Citrus Lakefront Levee, New Orleans, Louisiana, Proceedings of 21st Symposium on the Application of Geophysics to Engineering and Environmental Problems, Philadelphia 2008, 703–712.10.4133/1.2963312Search in Google Scholar

[21] Mala, Introduction to RAMAC/GPR Borehole Radar, Firm documentation of MALA Geoscience, Sweden 2000.Search in Google Scholar

[22] Marcak H., Gołębiowski T., Analiza możliwości detekcyjnych metody GPR dla zmiennej geometrii układu pomiarowego, Conference „Geofizyka w Geologii i Górnictwie”, Sosnowiec–Zawiercie 2010, 83.Search in Google Scholar

[23] Marcak H., Gołębiowski T., The Use of GPR Attributes to Map a Weak Zone in a River Dike, Exploration Geophysics, 45(2)/2014, 125–133.10.1071/EG13084Search in Google Scholar

[24] Marcak H., Gołębiowski T., Tomecka-Suchoń S., Analiza możliwości wykorzystania georadarowych fal refrakcyjnych do lokalizacji zmian w budowie wałów przeciwpowodziowych, Geologia, 31(3-4)/2005, 259–274.Search in Google Scholar

[25] Mori G., The Use of Ground Penetrating Radar and Alternative Geophysical Techniques for Assessing Embankments and Dikes Safety, Doctoral Thesis, Department Of Earth and Geoenvironmental Sciences, University of Bologna 2009.Search in Google Scholar

[26] Olsson O., Falk L., Forslund O., Lundmark L., Sandberg E., Crosshole Investigations - Results from Borehole Radar Investigation, Report of “Stripa” Project, Swedish Geological Company, Sweden 1987.Search in Google Scholar

[27] Pilecki Z., Rozpoznanie metodą sejsmiczną stanu podłoża obwałowań przeciwpowodziowych, Miesięcznik WUG Bezpieczeństwo Pracy i Ochrona Środowiska w Górnictwie 5(117)/2004, 37–39.Search in Google Scholar

[28] Pilecki Z., Kłosiński J., Ocena stanu obwałowania przeciwpowodziowego typu madowego za pomocą metody sejsmicznej, Miesięcznik WUG Bezpieczeństwo Pracy i Ochrona Środowiska w Górnictwie 6 (130)/2005, 58–60.Search in Google Scholar

[29] Prinzio M., Bittelli M., Castellarin A., Pisa P., Application of GPR to the Monitoring of River Embankments, Journal of Applied Geophysics 71(2-3)/2010, 53–61.10.1016/j.jappgeo.2010.04.002Search in Google Scholar

[30] Qin H., Xie X., Design and Test of an Improved Dipole Antenna for Detecting Enclosure Structure Defects by Cross-Hole GPR, Journal of Selected Topics in Applied Earth Observations and Remote Sensing 9(1)/2016, 108–114.10.1109/JSTARS.2015.2466450Search in Google Scholar

[31] Radzevicius S.J., Daniels J.J., Ground Penetrating Radar Polarization and Scattering from Cylinders, Journal of Applied Geophysics 45(2)/2000, 111–125.10.1016/S0926-9851(00)00023-9Search in Google Scholar

[32] Roberts R.L., Daniels J.J., Analysis of GPR Polarization Phenomena, Journal of Environmental and Engineering Geophysics 1(2)/1996, 139–157.10.4133/JEEG1.2.139Search in Google Scholar

[33] Roberts R.R., Analysis and Theoretical Modelling of GPR Polarization Data, Ph.D. Dissertation, The Ohio State University 1994.Search in Google Scholar

[34] Tronicke J., Knoll M.D., Vertical Radar Profiling: Influence of Survey Geometry on First-Arrival Travel Times and Amplitudes, Journal of Applied Geophysics 57(3)/2005, 179–191.10.1016/j.jappgeo.2004.11.001Search in Google Scholar

[35] Witten A., Lane J.W. Jr., Offset Vertical Radar Profiling, Leading Edge 22(11)/2003, 1070–1076.10.1190/1.1634910Search in Google Scholar

[36] Yamashita Y., Groom D., Inazaki T., Hayashi K., Rapid Near Surface Resistivity Survey Using the Capacitively-Coupled Resistivity System: OhmMapper, Raport of Geometrics, San Jose 2015.Search in Google Scholar

[37] www.sensoft.ca (access: 26.06.2018).Search in Google Scholar

[38] www.guidelinegeo.com (access: 26.06.2018).Search in Google Scholar

[39] www.liag-hannover.de (access: 26.06.2018).Search in Google Scholar

[40] www.geoscanners.com (access: 26.06.2018).Search in Google Scholar