24.8.6.11.1 Ground Penetrating Radar, Buried Objects

Chapter Contents (Back)
Buried Objects. Ground Penetrating. Radar. GPR.
See also Terahertz Ground Penetrating Radar, THz. Specifically for landmines:
See also Ground Penetrating Radar, UXO, Landmines, Explosives.
See also Through the Wall Imaging, Radar, Microwave Imaging.
See also Moon, Lunar Treeain, Lunar Analysis, Martian Terrain.
See also Magnetic, Electromagnetic Detection for Buried Objects, UXO, Landmines.
See also Ground Penetrating Radar for Archeological Sites. Utilities:
See also Utility Mapping, Buried Utilities, Pipelines, Subsurface Infrastructure. Airport related:
See also Surveillance Systems, Applied to Baggage Inspection, Cargo Inspection.

Morrow, I.L., van Genderen, P.,
Effective imaging of buried dielectric objects,
GeoRS(40), No. 4, April 2002, pp. 943-949.
IEEE Top Reference. 0206
BibRef

Xu, X.Y.[Xiao-Yin], Miller, E.L., Rappaport, C.M., Sower, G.D.,
Statistical method to detect subsurface objects using array ground-penetrating radar data,
GeoRS(40), No. 4, April 2002, pp. 963-976.
IEEE Top Reference. 0206
BibRef

Xu, X.Y.[Xiao-Yin], Miller, E.L.,
Adaptive difference of gaussians to improve subsurface object detection using GPR imagery,
ICIP02(II: 457-460).
IEEE DOI 0210
BibRef

Xu, X.Y.[Xiao-Yin], Miller, E.L., Rappaport, C.M.,
Minimum entropy regularization in frequency-wavenumber migration to localize subsurface objects,
GeoRS(41), No. 8, August 2003, pp. 1804-1812.
IEEE Abstract. 0308
BibRef

Fan, G.X.[Guo-Xin], Liu, Q.H.[Qing Huo], Hesthaven, J.S.,
Multidomain pseudospectral time-domain simulations of scattering by objects buried in lossy media,
GeoRS(40), No. 6, June 2002, pp. 1366-1373.
IEEE Top Reference. 0208
BibRef

Johnson, J.T., Kim, H.[Hyunjun], Wiggins, D.R., Cheon, Y.H.[Yong-Hun],
Subsurface object sensing with a multifrequency microwave radiometer,
GeoRS(40), No. 12, December 2002, pp. 2719-2726.
IEEE Top Reference. 0301
BibRef

Bermani, E., Boni, A., Caorsi, S., Massa, A.,
An innovative real-time technique for buried object detection,
GeoRS(41), No. 4, April 2003, pp. 927-931.
IEEE Abstract. 0307
BibRef

Micolau, G., Saillard, M., Borderies, P.,
DORT method as applied to ultrawideband signals for detection of buried objects,
GeoRS(41), No. 8, August 2003, pp. 1813-1820.
IEEE Abstract. 0308
BibRef

Cui, T.J.[Tie Jun], Aydiner, A.A., Chew, W.C.[Weng Cho], Wright, D.L., Smith, D.V.,
Three-Dimensional Imaging of Buried Objects in Very Lossy Earth by Inversion of VETEM Data,
GeoRS(41), No. 10, October 2003, pp. 2197-2210.
IEEE Abstract. 0310
BibRef

Cui, T.J.[Tie Jun], Chew, W.C.[Weng Cho], Aydiner, A.A., Zhang, Y.H.,
Fast-forward solvers for the low-frequency detection of buried dielectric objects,
GeoRS(41), No. 9, September 2003, pp. 2026-2036.
IEEE Abstract. 0310
BibRef

Johnson, J.T., Burkholder, R.J.,
A Study of Scattering from an Object Below a Rough Surface,
GeoRS(42), No. 1, January 2004, pp. 59-66.
IEEE Abstract. 0402
BibRef

Kolba, M.P., Scott, W.R., Collins, L.M.,
A Framework for Information-Based Sensor Management for the Detection of Static Targets,
SMC-A(41), No. 1, January 2011, pp. 105-120.
IEEE DOI 1011
Search for targets within the grid using multiple sensors. BibRef

Pieraccini, M., Luzi, G., Noferini, L., Mecatti, D., Atzeni, C.,
Joint Time-Frequency Analysis for Investigation of Layered Masonry Structures Using Penetrating Radar,
GeoRS(42), No. 2, February 2004, pp. 309-317.
IEEE Abstract. 0403
BibRef

Millard, X., Liu, Q.H.,
Simulation of Near-Surface Detection of Objects in Layered Media by the BCGS-FFT Method,
GeoRS(42), No. 2, February 2004, pp. 327-334.
IEEE Abstract. 0403
BibRef

O'Neill, K., Sun, K., Shubitidze, F., Shamatava, I., Paulsen, K.D.,
Accounting for the Effects of Widespread Discrete Clutter in Subsurface EMI Remote Sensing of Metallic Objects,
GeoRS(44), No. 1, January 2006, pp. 32-46.
IEEE DOI 0601
BibRef

Zhang, B., O'Neill, K., Kong, J.A., Grzegorczyk, T.M.,
Support Vector Machine and Neural Network Classification of Metallic Objects Using Coefficients of the Spheroidal MQS Response Modes,
GeoRS(46), No. 1, January 2008, pp. 159-171.
IEEE DOI 0712
BibRef

Cui, T.J., Qin, Y., Ye, Y., Wu, J., Wang, G.L., Chew, W.C.,
Efficient Low-Frequency Inversion of 3-D Buried Objects With Large Contrasts,
GeoRS(44), No. 1, January 2006, pp. 3-9.
IEEE DOI 0601
BibRef

Wohlberg, B., Tartakovsky, D.M., Guadagnini, A.,
Subsurface Characterization With Support Vector Machines,
GeoRS(44), No. 1, January 2006, pp. 47-57.
IEEE DOI 0601
BibRef

Stalnaker, J.L., Everett, M.E., Benavides, A., Pierce, Jr., C.J.,
Mutual Induction and the Effect of Host Conductivity on the EM Induction Response of Buried Plate Targets Using 3-D Finite-Element Analysis,
GeoRS(44), No. 2, February 2006, pp. 251-259.
IEEE DOI 0602
BibRef

Buff, P.M., Steer, M.B., Lazzi, G.,
Cole-Cole Dispersion Models for Aqueous Gelatin-Syrup Dielectric Composites,
GeoRS(44), No. 2, February 2006, pp. 351-355.
IEEE DOI 0602
Modeling soil. BibRef

Marquart, N.P., Molinet, F., Pottier, E.,
Investigations on the Polarimetric Behavior of a Target Near the Soil,
GeoRS(44), No. 10, October 2006, pp. 2899-2907.
IEEE DOI 0609
BibRef

Streich, R., Kruk, J.V.D.,
Accurate Imaging of Multicomponent GPR Data Based on Exact Radiation Patterns,
GeoRS(45), No. 1, January 2007, pp. 93-103.
IEEE DOI 0701
BibRef

Liao, Y., Nolte, L.W., Collins, L.M.,
Decision Fusion of Ground-Penetrating Radar and Metal Detector Algorithms: A Robust Approach,
GeoRS(45), No. 2, February 2007, pp. 398-409.
IEEE DOI 0703
BibRef

Langley, K.[Kirsty], Hamran, S.E.[Svein-Erik], Hogda, K.A.[Kjell Arild], Storvold, R.[Rune], Brandt, O.[Ola], Hagen, J.O.[Jon Ove], Kohler, J.[Jack],
Use of C-Band Ground Penetrating Radar to Determine Backscatter Sources Within Glaciers,
GeoRS(45), No. 5, May 2007, pp. 1236-1246.
IEEE DOI 0704
BibRef

Zhan, H., Farid, A.M., Alshawabkeh, A.N., Raemer, H.R., Rappaport, C.M.,
Scale Model Experimental Validation and Calibration of the Half-Space Green's Function Born Approximation Model Applied to Cross-Well Radar Sensing,
GeoRS(45), No. 8, August 2007, pp. 2423-2428.
IEEE DOI 0709
BibRef

Rappaport, C.M.,
Accurate Determination of Underground GPR Wavefront and B-Scan Shape From Above-Ground Point Sources,
GeoRS(45), No. 8, August 2007, pp. 2429-2434.
IEEE DOI 0709
BibRef

Hue, Y.K., Teixeira, F.L.,
Numerical Mode-Matching Method for Tilted-Coil Antennas in Cylindrically Layered Anisotropic Media With Multiple Horizontal Beds,
GeoRS(45), No. 8, August 2007, pp. 2451-2462.
IEEE DOI 0709
BibRef

Kao, C., Li, J., Wang, Y., Xing, H., Liu, C.R.,
Measurement of Layer Thickness and Permittivity Using a New Multilayer Model From GPR Data,
GeoRS(45), No. 8, August 2007, pp. 2463-2470.
IEEE DOI 0709
BibRef

Cmielewski, O., Tortel, H., Litman, A., Saillard, M.,
A Two-Step Procedure for Characterizing Obstacles Under a Rough Surface From Bistatic Measurements,
GeoRS(45), No. 9, September 2007, pp. 2850-2858.
IEEE DOI 0710
BibRef

Bolton, J.[Jeremy], Gader, P.[Paul],
Random Set Framework for Context-Based Classification With Hyperspectral Imagery,
GeoRS(47), No. 11, November 2009, pp. 3810-3821.
IEEE DOI 0911
BibRef

Bolton, J.[Jeremy], Gader, P.[Paul],
Cross Entropy Optimization of the Random Set Framework for Multiple Instance Learning,
ICPR10(3907-3910).
IEEE DOI 1008
BibRef

Flores-Tapia, D., Thomas, G., Pistorius, S.,
A Wavefront Reconstruction Method for 3-D Cylindrical Subsurface Radar Imaging,
IP(17), No. 10, October 2008, pp. 1908-1925.
IEEE DOI 0809
BibRef

Catapano, I., Crocco, L., Isernia, T.,
Improved Sampling Methods for Shape Reconstruction of 3-D Buried Targets,
GeoRS(46), No. 10, October 2008, pp. 3265-3273.
IEEE DOI 0810
BibRef

Catapano, I., Crocco, L.,
An Imaging Method for Concealed Targets,
GeoRS(47), No. 5, May 2009, pp. 1301-1309.
IEEE DOI 0904
BibRef

Davis, C.P., Chew, W.C., Tucker, W.W., Atkins, P.R.,
A Null-Field Method for Estimating Underground Position,
GeoRS(46), No. 11, November 2008, pp. 3731-3738.
IEEE DOI 0812
BibRef

Jofre, L., Broquetas, A., Romeu, J., Blanch, S., Toda, A.P., Fabregas, X., Cardama, A.,
UWB Tomographic Radar Imaging of Penetrable and Impenetrable Objects,
PIEEE(97), No. 2, February 2009, pp. 451-464.
IEEE DOI 0903
BibRef

Tabatabaeenejad, A., Moghaddam, M.,
Inversion of Subsurface Properties of Layered Dielectric Structures With Random Slightly Rough Interfaces Using the Method of Simulated Annealing,
GeoRS(47), No. 7, July 2009, pp. 2035-2046.
IEEE DOI 0906
BibRef

Daniels, D.J.[David J.],
EM Detection of Concealed Targets,
Wiley-IEEE PressDecember 2009, ISBN: 978-0-470-12169-6
HTML Version. Survey, Concealed Targets. Various methods, survey of techniques. Buy this book: EM Detection of Concealed Targets (Wiley Series in Microwave and Optical Engineering) 0911
BibRef

Nezirovic, A., Yarovoy, A.G., Ligthart, L.P.,
Signal Processing for Improved Detection of Trapped Victims Using UWB Radar,
GeoRS(48), No. 4, April 2010, pp. 2005-2014.
IEEE DOI 1003
BibRef
And: Corrections: GeoRS(48), No. 4, April 2010, pp. 2179-2179.
IEEE DOI 1003
BibRef

Lo Monte, L., Erricolo, D., Soldovieri, F., Wicks, M.C.,
Radio Frequency Tomography for Tunnel Detection,
GeoRS(48), No. 3, March 2010, pp. 1128-1137.
IEEE DOI 1003
BibRef

Elsherbini, A., Sarabandi, K.,
Mapping of Sand Layer Thickness in Deserts Using SAR Interferometry,
GeoRS(48), No. 9, September 2010, pp. 3550-3559.
IEEE DOI 1008
BibRef

Martinez-Lorenzo, J.A., Rappaport, C.M., Quivira, F.,
Physical Limitations on Detecting Tunnels Using Underground-Focusing Spotlight Synthetic Aperture Radar,
GeoRS(49), No. 1, January 2011, pp. 65-70.
IEEE DOI 1101
BibRef

Soldovieri, F., Lopera, O., Lambot, S.,
Combination of Advanced Inversion Techniques for an Accurate Target Localization via GPR for Demining Applications,
GeoRS(49), No. 1, January 2011, pp. 451-461.
IEEE DOI 1101
BibRef

Ciarletti, V., Corbel, C., Plettemeier, D., Cais, P., Clifford, S.M., Hamran, S.E.,
WISDOM GPR Designed for Shallow and High-Resolution Sounding of the Martian Subsurface,
PIEEE(99), No. 5, May 2011, pp. 824-836.
IEEE DOI 1105
BibRef

Apaydin, G., Ozgun, O., Kuzuoglu, M., Sevgi, L.,
A Novel Two-Way Finite-Element Parabolic Equation Groundwave Propagation Tool: Tests With Canonical Structures and Calibration,
GeoRS(49), No. 8, August 2011, pp. 2887-2899.
IEEE DOI 1108
BibRef

Rusdiarna, A.[Apik], Praja, I.[Indra], Soetedjo, H.[Hariyadi],
A Hot Buried Object Detection Technique Using a Temperature Sensor,
Sensors(131), No. 8, August 2011, pp. 68-74.
HTML Version. 1109
BibRef

Shao, W.B.[Wen-Bin], Bouzerdoum, A., Phung, S.L.[Son Lam], Su, L.J.[Li-Jun], Indraratna, B., Rujikiatkamjorn, C.,
Automatic Classification of Ground-Penetrating-Radar Signals for Railway-Ballast Assessment,
GeoRS(49), No. 10, October 2011, pp. 3961-3972.
IEEE DOI 1110
BibRef

Miles, R.B., Dogariu, A., Michael, J.B.,
Bringing bombs to light,
Spectrum(49), No. 2, February 2012, pp. 38-43.
IEEE DOI 1202
Laser for detection rather than bomb sniffing dogs. BibRef

Yang, K., Yilmaz, A.E.,
A Three-Dimensional Adaptive Integral Method for Scattering From Structures Embedded in Layered Media,
GeoRS(50), No. 4, April 2012, pp. 1130-1139.
IEEE DOI 1204
BibRef

Xu, Y., Wu, S., Chen, C., Chen, J., Fang, G.,
A Novel Method for Automatic Detection of Trapped Victims by Ultrawideband Radar,
GeoRS(50), No. 8, August 2012, pp. 3132-3142.
IEEE DOI 1208
BibRef

Lo Monte, L., Soldovieri, F., Erricolo, D., Wicks, M.C.,
Imaging Below Irregular Terrain Using RF Tomography,
GeoRS(50), No. 9, September 2012, pp. 3364-3373.
IEEE DOI 1209
BibRef

Ferro, A., Bruzzone, L.,
Analysis of Radar Sounder Signals for the Automatic Detection and Characterization of Subsurface Features,
GeoRS(50), No. 11, November 2012, pp. 4333-4348.
IEEE DOI 1210
BibRef

Ferro, A., Bruzzone, L.,
Automatic Extraction and Analysis of Ice Layering in Radar Sounder Data,
GeoRS(51), No. 3, March 2013, pp. 1622-1634.
IEEE DOI 1303
BibRef

Ferro, A., Pascal, A., Bruzzone, L.,
A Novel Technique for the Automatic Detection of Surface Clutter Returns in Radar Sounder Data,
GeoRS(51), No. 5, May 2013, pp. 3037-3055.
IEEE DOI 1305
BibRef

Hu, Z., Ge, L., Li, X., Zhang, K., Zhang, L.,
An Underground-Mining Detection System Based on DInSAR,
GeoRS(51), No. 1, January 2013, pp. 615-625.
IEEE DOI 1301
BibRef

Nie, Z., Ren, S., Yan, S., He, S., Hu, J.,
Modified Phase-Extracted Basis Functions for Efficient Analysis of Scattering From Electrically Large Targets,
PIEEE(100), No. 2, February 2013, pp. 401-413.
IEEE DOI 1302
BibRef

Chai, W., Jiao, D.,
Direct Matrix Solution of Linear Complexity for Surface Integral-Equation-Based Impedance Extraction of Complicated 3-D Structures,
PIEEE(100), No. 2, February 2013, pp. 372-388.
IEEE DOI 1302
BibRef

Grzegorczyk, T.M., Zhang, B., Cornick, M.T.,
Optimized SVD Approach for the Detection of Weak Subsurface Targets From Ground-Penetrating Radar Data,
GeoRS(51), No. 3, March 2013, pp. 1635-1642.
IEEE DOI 1303
BibRef

di Matteo, A., Pettinelli, E., Slob, E.,
Early-Time GPR Signal Attributes to Estimate Soil Dielectric Permittivity: A Theoretical Study,
GeoRS(51), No. 3, March 2013, pp. 1643-1654.
IEEE DOI 1303
BibRef

Smits, K.M., Cihan, A., Sakaki, T., Howington, S.E., Peters, J.F., Illangasekare, T.H.,
Soil Moisture and Thermal Behavior in the Vicinity of Buried Objects Affecting Remote Sensing Detection: Experimental and Modeling Investigation,
GeoRS(51), No. 5, May 2013, pp. 2675-2688.
IEEE DOI 1305
BibRef

Arens, T., Lechleiter, A.[Armin],
Indicator Functions for Shape Reconstruction Related to the Linear Sampling Method,
SIIMS(8), No. 1, 2015, pp. 513-535.
DOI Link 1503
BibRef

Sharifahmadian, E.[Ershad], Choi, Y.[Yoonsuk], Latifi, S.[Shahram],
Remotely detecting weapons of mass destruction,
SPIE(Newsroom), August 11, 2013
DOI Link 1310
A new approach uses hyperspectral and wideband data to identify concealed fissile materials remotely. BibRef

Tong, M.S.[Mei Song], Yang, K.[Kuo], Sheng, W.T.[Wei Tian], Zhu, Z.Y.[Zhen Ying],
Efficient Reconstruction of Dielectric Objects Based on Integral Equation Approach With Gauss-Newton Minimization,
IP(22), No. 12, 2013, pp. 4930-4937.
IEEE DOI 1312
image reconstruction BibRef

Dagefu, F.T., Sarabandi, K.,
High-Resolution Subsurface Imaging of Deeply Submerged Targets Based on Distributed Near-Ground Sensors,
GeoRS(52), No. 2, February 2014, pp. 1089-1098.
IEEE DOI 1402
UHF antennas BibRef

Gurbuz, T.U., Aslanyurek, B., Karabulut, E.P., Akduman, I.,
An Efficient Nonlinear Imaging Approach for Dielectric Objects Buried Under a Rough Surface,
GeoRS(52), No. 5, May 2014, pp. 3013-3022.
IEEE DOI 1403
Approximation methods BibRef

Borgioli, G., Bulletti, A., Calzolai, M., Capineri, L.,
A New Sensorized Prodder Device for the Detection of Vibrational Characteristics of Buried Objects,
GeoRS(52), No. 6, June 2014, pp. 3440-3452.
IEEE DOI 1403
Buried object detection BibRef

Elsherbini, A., Sarabandi, K.,
Image Distortion Effects in SAR Subsurface Imaging and a New Iterative Approach for Refocusing and Coregistration,
GeoRS(52), No. 5, May 2014, pp. 2994-3004.
IEEE DOI 1403
Focusing BibRef

Busch, S., van der Kruk, J., Vereecken, H.,
Improved Characterization of Fine-Texture Soils Using On-Ground GPR Full-Waveform Inversion,
GeoRS(52), No. 7, July 2014, pp. 3947-3958.
IEEE DOI 1403
Conductivity BibRef

Carpio, A., Rapún, M.L.,
Parameter Identification in Photothermal Imaging,
JMIV(49), No. 2, June 2014, pp. 273-288.
Springer DOI 1405
geometry of inclusions and their material parameters in thermal scattering near surfaces BibRef

Bao, G., Li, P.,
Near-Field Imaging of Infinite Rough Surfaces in Dielectric Media,
SIIMS(7), No. 2, 2014, pp. 867-899.
DOI Link 1405
BibRef

Kedzierawski, R., Le Caillec, J., Czarnecki, W.,
The Time-Reversal Technique for SAR Focusing of Buried Targets: Theoretical improvements and practical limitations,
SPMag(31), No. 4, July 2014, pp. 99-109.
IEEE DOI 1407
Airborne imaging BibRef

Salucci, M., Oliveri, G., Massa, A.,
GPR Prospecting Through an Inverse-Scattering Frequency-Hopping Multifocusing Approach,
GeoRS(53), No. 12, December 2015, pp. 6573-6592.
IEEE DOI 1512
data acquisition BibRef

Santos-Assunçao, S.[Sonia], Perez-Gracia, V.[Vega], Caselles, O.[Oriol], Clapes, J.[Jaume], Salinas, V.[Victor],
Assessment of Complex Masonry Structures with GPR Compared to Other Non-Destructive Testing Studies,
RS(6), No. 9, 2014, pp. 8220-8237.
DOI Link 1410
BibRef

Huang, Z.L.[Zhong-Lai], Zhang, J.Z.[Jian-Zhong],
Determination of Parameters of Subsurface Layers Using GPR Spectral Inversion Method,
GeoRS(52), No. 12, December 2014, pp. 7527-7533.
IEEE DOI 1410
electrical conductivity measurement BibRef

Huuskonen-Snicker, E., Mikhnev, V.A., Olkkonen, M.K.,
Discrimination of Buried Objects in Impulse GPR Using Phase Retrieval Technique,
GeoRS(53), No. 2, February 2015, pp. 1001-1007.
IEEE DOI 1411
calibration BibRef

Paglieroni, D.W., Pechard, C.T., Beer, N.R.,
Change Detection in Constellations of Buried Objects Extracted From Ground-Penetrating Radar Data,
GeoRS(53), No. 5, May 2015, pp. 2426-2439.
IEEE DOI 1502
buried object detection BibRef

Hislop, G.,
Permittivity Estimation Using Coupling of Commercial Ground Penetrating Radars,
GeoRS(53), No. 8, August 2015, pp. 4157-4164.
IEEE DOI 1506
geophysical techniques BibRef

Feng, X., Yu, Y., Liu, C., Fehler, M.,
Combination of H-Alpha Decomposition and Migration for Enhancing Subsurface Target Classification of GPR,
GeoRS(53), No. 9, September 2015, pp. 4852-4861.
IEEE DOI 1506
Antenna arrays BibRef

Mertens, L., Persico, R., Matera, L., Lambot, S.,
Automated Detection of Reflection Hyperbolas in Complex GPR Images With No A Priori Knowledge on the Medium,
GeoRS(54), No. 1, January 2016, pp. 580-596.
IEEE DOI 1601
calibration BibRef

McKenna, J.R., Rim, H., Li, Y.,
Feasibility and Limitations of Void Detection Using Gravity Gradiometry,
GeoRS(54), No. 2, February 2016, pp. 881-891.
IEEE DOI 1601
Accuracy BibRef

Li, W.T.[Wen-Tao], Cui, X.H.[Xi-Hong], Guo, L.[Li], Chen, J.[Jin], Chen, X.H.[Xue-Hong], Cao, X.[Xin],
Tree Root Automatic Recognition in Ground Penetrating Radar Profiles Based on Randomized Hough Transform,
RS(8), No. 5, 2016, pp. 430.
DOI Link 1606
BibRef

Valagiannopoulos, C.A., Tsitsas, N.L., Sihvola, A.H.,
'Unlocking' the Ground: Increasing the Detectability of Buried Objects by Depositing Passive Superstrates,
GeoRS(54), No. 6, June 2016, pp. 3697-3709.
IEEE DOI 1606
boundary-value problems BibRef

Bellez, S., Roussel, H., Dahon, C., Castelli, J.C., Cheraly, A.,
Full Polarimetric Bistatic Radar Imaging Experiments on Sets of Dielectric Cylinders Above a Conductive Circular Plate,
GeoRS(51), No. 7, 2013, pp. 4164-4176.
IEEE DOI 1307
forest scattering mechanisms BibRef

Pe'er, U., Dy, J.G.,
Automated Target Detection for Geophysical Applications,
GeoRS(55), No. 3, March 2017, pp. 1563-1572.
IEEE DOI 1703
Atmospheric modeling. Anomalies that correspond to buried objects. BibRef

Wei, X.K., Zhang, X., Diamanti, N., Shao, W., Sarris, C.D.,
Subgridded FDTD Modeling of Ground Penetrating Radar Scenarios Beyond the Courant Stability Limit,
GeoRS(55), No. 12, December 2017, pp. 7189-7198.
IEEE DOI 1712
Dispersion, Finite difference methods, Ground penetrating radar, Mathematical model, Numerical stability, Stability analysis, numerical stability BibRef

Liu, Q., Cui, X., Liu, X., Chen, J., Chen, X., Cao, X.,
Detection of Root Orientation Using Ground-Penetrating Radar,
GeoRS(56), No. 1, January 2018, pp. 93-104.
IEEE DOI 1801
Antennas, Ground penetrating radar, Mathematical model, Shape, Software, Soil, Systems architecture, Curve fitting, vertical inclination BibRef

Reichman, D., Collins, L.M., Malof, J.M.,
On Choosing Training and Testing Data for Supervised Algorithms in Ground-Penetrating Radar Data for Buried Threat Detection,
GeoRS(56), No. 1, January 2018, pp. 497-507.
IEEE DOI 1801
Algorithm design and analysis, Data mining, Ground penetrating radar, Sensors, Taxonomy, Testing, Training, training BibRef

Ceru, T.[Teja], Šegina, E.[Ela], Gosar, A.[Andrej],
Geomorphological Dating of Pleistocene Conglomerates in Central Slovenia Based on Spatial Analyses of Dolines Using LiDAR and Ground Penetrating Radar,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
BibRef

Bain, J.C.[John C.], Day, F.P.[Frank P.], Butnor, J.R.[John R.],
Experimental Evaluation of Several Key Factors Affecting Root Biomass Estimation by 1500 MHz Ground-Penetrating Radar,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
BibRef

Eren, M.T.[Mustafa Tolga], Balcisoy, S.[Selim],
Evaluation of X-ray visualization techniques for vertical depth judgments in underground exploration,
VC(34), No. 3, March 2018, pp. 405-416.
WWW Link. 1802
BibRef

Naval, V.S.[Victor Salinas], Santos-Assunçao, S.[Sonia], Pérez-Gracia, V.[Vega],
GPR Clutter Amplitude Processing to Detect Shallow Geological Targets,
RS(10), No. 1, 2018, pp. xx-yy.
DOI Link 1802
BibRef

Jung, H., Kim, K.,
Autofocusing Technique Based on Generalized Multilayer Stolt Migration,
GeoRS(56), No. 3, March 2018, pp. 1386-1393.
IEEE DOI 1804
Hough transforms, ground penetrating radar, permittivity, radar imaging, AF metric evaluations, RP determination algorithm, microwave imaging BibRef

Ceru, T.[Teja], Dolenec, M.[Matej], Gosar, A.[Andrej],
Application of Ground Penetrating Radar Supported by Mineralogical-Geochemical Methods for Mapping Unroofed Cave Sediments,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Ghoneim, E.[Eman],
Rimaal: A Sand Buried Structure of Possible Impact Origin in the Sahara: Optical and Radar Remote Sensing Investigation,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Hajebi, M., Tavakoli, A., Dehmollaian, M., Dehkhoda, P.,
An Iterative Modified Diffraction Tomography Method for Reconstruction of a High-Contrast Buried Object,
GeoRS(56), No. 7, July 2018, pp. 4138-4148.
IEEE DOI 1807
Approximation algorithms, Buried object detection, Image reconstruction, Inverse problems, Iterative methods, microwave imaging BibRef

Park, B.J.[Byeong-Jin], Kim, J.G.[Jeong-Guk], Lee, J.[Jaesun], Kang, M.S.[Man-Sung], An, Y.K.[Yun-Kyu],
Underground Object Classification for Urban Roads Using Instantaneous Phase Analysis of Ground-Penetrating Radar (GPR) Data,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
BibRef

Wahab, S.W., Chapman, D.N., Rogers, C.D.F., Foo, K.Y., Metje, N., Nawawi, S.W., Isa, M.N., Madun, A.,
Assessing the Condition of Buried Pipe Using Ground Penetrating Radar (GPR),
GeoDisast18(77-81).
DOI Link 1901
BibRef

Ukaegbu, I.K.[Ikechukwu K.], Gamage, K.A.A.[Kelum A. A.], Aspinall, M.D.[Michael D.],
Nonintrusive Depth Estimation of Buried Radioactive Wastes Using Ground Penetrating Radar and a Gamma Ray Detector,
RS(11), No. 2, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Feng, X.[Xuan], Zhou, H.Q.[Hao-Qiu], Liu, C.[Cai], Zhang, Y.[Yan], Liang, W.J.[Wen-Jing], Nilot, E.[Enhedelihai], Zhang, M.H.[Ming-He], Dong, Z.J.[Ze-Jun],
Particle Center Supported Plane for Subsurface Target Classification based on Full Polarimetric Ground Penetrating Radar,
RS(11), No. 4, 2019, pp. xx-yy.
DOI Link 1903
BibRef

André, F.[Frédéric], Jonard, F.[François], Jonard, M.[Mathieu], Vereecken, H.[Harry], Lambot, S.[Sébastien],
Accounting for Surface Roughness Scattering in the Characterization of Forest Litter with Ground-Penetrating Radar,
RS(11), No. 7, 2019, pp. xx-yy.
DOI Link 1904
BibRef

Zhang, W., Hoorfar, A.,
MIMO Ground Penetrating Radar Imaging Through Multilayered Subsurface Using Total Variation Minimization,
GeoRS(57), No. 4, April 2019, pp. 2107-2115.
IEEE DOI 1904
Green's function methods, ground penetrating radar, image reconstruction, minimisation, radar imaging, total variation minimization (TVM) BibRef

Klibanov, M., Kolesov, A., Nguyen, D.,
Convexification Method for an Inverse Scattering Problem and Its Performance for Experimental Backscatter Data for Buried Targets,
SIIMS(12), No. 1, 2019, pp. 576-603.
DOI Link 1904
BibRef

Lombardi, F.[Federico], Lualdi, M.[Maurizio],
Step-Frequency Ground Penetrating Radar for Agricultural Soil Morphology Characterisation,
RS(11), No. 9, 2019, pp. xx-yy.
DOI Link 1905
BibRef

Chen, G., Fu, L., Chen, K., Boateng, C.D., Ge, S.,
Adaptive Ground Clutter Reduction in Ground-Penetrating Radar Data Based on Principal Component Analysis,
GeoRS(57), No. 6, June 2019, pp. 3271-3282.
IEEE DOI 1906
Clutter, Ground penetrating radar, Principal component analysis, Correlation, Geology, Singular value decomposition, Histograms, singular value decomposition (SVD) BibRef

Barone, P.M.[Pier Matteo], Ferrara, C.[Carlotta],
A posteriori GPR Evaluation of Tree Stability: A Case Study in Rome (Italy),
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
BibRef

Sun, M., Pan, J., Le Bastard, C., Wang, Y., Li, J.,
Advanced Signal Processing Methods for Ground-Penetrating Radar: Applications to civil engineering,
SPMag(36), No. 4, July 2019, pp. 74-84.
IEEE DOI 1907
Ground penetrating radar, Media, Signal processing, Covariance matrices, Data processing, Frequency-domain analysis BibRef

Ambrosanio, M., Bevacqua, M.T., Isernia, T., Pascazio, V.,
The Tomographic Approach to Ground-Penetrating Radar for Underground Exploration and Monitoring: A more user-friendly and unconventional method for subsurface investigation,
SPMag(36), No. 4, July 2019, pp. 62-73.
IEEE DOI 1907
Ground penetrating radar, Tomography, Soil measurements, Antenna measurements, Clutter BibRef

Šarlah, N.[Nikolaj], Podobnikar, T.[Tomaž], Mongus, D.[Domen], Ambrožic, T.[Tomaž], Mušic, B.[Branko],
Kinematic GPR-TPS Model for Infrastructure Asset Identification with High 3D Georeference Accuracy Developed in a Real Urban Test Field,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907
BibRef

Zhan, Q., Zhuang, M., Zhou, Z., Liu, J., Liu, Q.H.,
Complete-Q Model for Poro-Viscoelastic Media in Subsurface Sensing: Large-Scale Simulation With an Adaptive DG Algorithm,
GeoRS(57), No. 7, July 2019, pp. 4591-4599.
IEEE DOI 1907
Mathematical model, Solids, Media, Differential equations, Stress, Sensors, Dispersion, Discontinuous Galerkin, domain decomposition, subsurface sensing BibRef

Solla, M.[Mercedes], Lagüela, S.[Susana], Fernández, N.[Norberto], Garrido, I.[Iván],
Assessing Rebar Corrosion through the Combination of Nondestructive GPR and IRT Methodologies,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Li, Y., Wang, X., Ding, Z., Zhang, X., Xiang, Y., Yang, X.,
Spectrum Recovery for Clutter Removal in Penetrating Radar Imaging,
GeoRS(57), No. 9, September 2019, pp. 6650-6665.
IEEE DOI 1909
Clutter, Radar imaging, Ground penetrating radar, Directive antennas, Clutter removal, through-the-wall radar (TWR) BibRef

Alani, A.M.[Amir M.], Soldovieri, F.[Francesco], Catapano, I.[Ilaria], Giannakis, I.[Iraklis], Gennarelli, G.[Gianluca], Lantini, L.[Livia], Ludeno, G.[Giovanni], Tosti, F.[Fabio],
The Use of Ground Penetrating Radar and Microwave Tomography for the Detection of Decay and Cavities in Tree Trunks,
RS(11), No. 18, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Kang, M.S.[Man-Sung], Kim, N.Y.[Namg-Yu], Im, S.B.[Seok Been], Lee, J.J.[Jong-Jae], An, Y.K.[Yun-Kyu],
3D GPR Image-based UcNet for Enhancing Underground Cavity Detectability,
RS(11), No. 21, 2019, pp. xx-yy.
DOI Link 1911
BibRef

Feng, D., Cao, C., Wang, X.,
Multiscale Full-Waveform Dual-Parameter Inversion Based on Total Variation Regularization to On-Ground GPR Data,
GeoRS(57), No. 11, November 2019, pp. 9450-9465.
IEEE DOI 1911
Ground penetrating radar, Conductivity, Permittivity, Time-domain analysis, Radar imaging, TV, Dual-parameter inversion, total variation (TV) regularization BibRef

Goian, A.[Abdulrahman], Ashour, R.[Reem], Ahmad, U.[Ubaid], Taha, T.[Tarek], Almoosa, N.[Nawaf], Seneviratne, L.[Lakmal],
Victim Localization in USAR Scenario Exploiting Multi-Layer Mapping Structure,
RS(11), No. 22, 2019, pp. xx-yy.
DOI Link 1911
BibRef

Sossa, V.[Viviana], Pérez-Gracia, V.[Vega], González-Drigo, R.[Ramón], Rasol, M.A.[Mezgeen A.],
Lab Non Destructive Test to Analyze the Effect of Corrosion on Ground Penetrating Radar Scans,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Carrer, L., Gerekos, C., Bovolo, F., Bruzzone, L.,
Distributed Radar Sounder: A Novel Concept for Subsurface Investigations Using Sensors in Formation Flight,
GeoRS(57), No. 12, December 2019, pp. 9791-9809.
IEEE DOI 1912
Radar antennas, Spaceborne radar, Sensor arrays, Antenna arrays, Aperture antennas, Distributed system, formation flight, radar, radar sounder BibRef

Viberg, A.[Andreas], Gustafsson, C.[Christer], Andrén, A.[Anders],
Multi-Channel Ground-Penetrating Radar Array Surveys of the Iron Age and Medieval Ringfort Bårby on the Island of Öland, Sweden,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001
BibRef

Lombardi, F.[Federico], Lualdi, M.[Maurizio], Picetti, F.[Francesco], Bestagini, P.[Paolo], Janszen, G.[Gerardus], Landro, L.A.D.[Luca Angelo Di],
Ballistic Ground Penetrating Radar Equipment for Blast-Exposed Security Applications,
RS(12), No. 4, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Pinel, N., Le Bastard, C., Bourlier, C.,
Modeling of EM Wave Coherent Scattering From a Rough Multilayered Medium With the Scalar Kirchhoff Approximation for GPR Applications,
GeoRS(58), No. 3, March 2020, pp. 1654-1664.
IEEE DOI 2003
Scattering, Ground penetrating radar, Rough surfaces, Surface roughness, Time-domain analysis, Numerical models, Media, rough surfaces BibRef

Du, K.[Kai], Huang, H.G.[Hua-Guo], Zhu, Y.Y.[Yu-Yi],
Simulation of Ku-Band Profile Radar Waveform by Extending Radiosity Applicable to Porous Individual Objects (RAPID2) Model,
RS(12), No. 4, 2020, pp. xx-yy.
DOI Link 2003
BibRef
And: Erratum: Feng, Z.Y.[Zi-Yi], Hakala, T.[Teemu], Chen, Y.W.[Yu-Wei], Hyyppä, J.[Juha], RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009
BibRef

Comite, D.[Davide], Ahmad, F.[Fauzia], Dogaru, T.[Traian], Amin, M.[Moeness],
Coherence-Factor-Based Rough Surface Clutter Suppression for Forward-Looking GPR Imaging,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Luo, K.[Kun], Liu, S.X.[Si-Xin], Guo, J.X.[Jing-Xue], Wang, T.T.[Tian-Tian], Li, L.[Lin], Cui, X.B.[Xiang-Bin], Sun, B.[Bo], Tang, X.Y.[Xue-Yuan],
Radar-Derived Internal Structure and Basal Roughness Characterization along a Traverse from Zhongshan Station to Dome A, East Antarctica,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
BibRef

Tang, X.Y.[Xue-Yuan], Luo, K.[Kun], Guo, J.X.[Jing-Xue],
Radar-derived Internal Layering and Basal Roughness Characterization Along A Traverse From Zhongshan Station to Dome A, East Antarctica,
ISPRS20(B3:905-910).
DOI Link 2012
BibRef

Negishi, T., Gennarelli, G., Soldovieri, F., Liu, Y., Erricolo, D.,
Radio Frequency Tomography for Nondestructive Testing of Pillars,
GeoRS(58), No. 6, June 2020, pp. 3916-3926.
IEEE DOI 2005
Ground penetrating radar (GPR), linear inverse scattering, nondestructive testing (NDT), radio frequency tomography (RFT) BibRef

Hao, T., Zheng, W., He, W., Lin, K.,
Air-Ground Impedance Matching by Depositing Metasurfaces for Enhanced GPR Detection,
GeoRS(58), No. 6, June 2020, pp. 4061-4075.
IEEE DOI 2005
Ground-penetrating radar (GPR), impedance matching, metasurface, transmission enhancement BibRef

Pereira, M., Burns, D., Orfeo, D., Zhang, Y., Jiao, L., Huston, D., Xia, T.,
3-D Multistatic Ground Penetrating Radar Imaging for Augmented Reality Visualization,
GeoRS(58), No. 8, August 2020, pp. 5666-5675.
IEEE DOI 2007
Ground penetrating radar, Receivers, Scattering, Solid modeling, Data visualization, Shape, 3-D feature extraction, synthetic aperture radar BibRef

Moalla, M., Frigui, H., Karem, A., Bouzid, A.,
Application of Convolutional and Recurrent Neural Networks for Buried Threat Detection Using Ground Penetrating Radar Data,
GeoRS(58), No. 10, October 2020, pp. 7022-7034.
IEEE DOI 2009
Ground penetrating radar, Feature extraction, Computed tomography, Antenna arrays, Recurrent neural networks, recurrent neural networks (RNNs) BibRef

Lantini, L.[Livia], Tosti, F.[Fabio], Giannakis, I.[Iraklis], Zou, L.L.[Li-Long], Benedetto, A.[Andrea], Alani, A.M.[Amir M.],
An Enhanced Data Processing Framework for Mapping Tree Root Systems Using Ground Penetrating Radar,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Wang, Z.[Zhenwu], Wan, B.[Benting], Han, M.J.[Meng-Jie],
A Three-Dimensional Visualization Framework for Underground Geohazard Recognition on Urban Road-Facing GPR Data,
IJGI(9), No. 11, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Gennarelli, G., Ludeno, G., Catapano, I., Soldovieri, F.,
Full 3-D Imaging of Vertical Structures via Ground-Penetrating Radar,
GeoRS(58), No. 12, December 2020, pp. 8857-8873.
IEEE DOI 2012
Ground penetrating radar, Radar imaging, Permittivity, Image reconstruction, Scattering, Permittivity measurement, vertical structures BibRef

Radutu, A.[Alina], Venvik, G.[Guri], Ghibus, T.[Traian], Gogu, C.R.[Constantin Radu],
Sentinel-1 Data for Underground Processes Recognition in Bucharest City, Romania,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Aboudourib, A., Serhir, M., Lesselier, D.,
A Processing Framework for Tree-Root Reconstruction Using Ground-Penetrating Radar Under Heterogeneous Soil Conditions,
GeoRS(59), No. 1, January 2021, pp. 208-219.
IEEE DOI 2012
Soil, Ground penetrating radar, Numerical models, Permittivity, Fractals, Data models, Soil measurements, 3-D reconstruction, tree-root architecture BibRef

Feng, N.X.[Nai-Xing], Zhang, Y.X.[Yu-Xian], Wang, G.P.[Guo Ping], Zeng, Q.S.[Qing-Sheng], Joines, W.T.[William T.],
Compact Matrix-Exponential-Based FDTD with Second-Order PML and Direct Z-Transform for Modeling Complex Subsurface Sensing and Imaging Problems,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Sefer, A., Yapar, A.,
An Iterative Algorithm for Imaging of Rough Surfaces Separating Two Dielectric Media,
GeoRS(59), No. 2, February 2021, pp. 1041-1051.
IEEE DOI 2101
Rough surfaces, Surface roughness, Surface reconstruction, Dielectrics, Integral equations, Surface waves, Surface impedance, surface integral equations (SIEs) BibRef

Zhang, X.G.[Xian-Guo], Lin, C.Y.[Cheng-Yan], Zhang, T.[Tao], Huang, D.[Daowu], Huang, D.R.[De-Rong], Liu, S.W.[Shan-Wei],
New Understanding of Bar Top Hollows in Dryland Sandy Braided Rivers from Outcrops with Unmanned Aerial Vehicle and Ground Penetrating Radar Surveys,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Zadhoush, H.[Hossain], Giannopoulos, A.[Antonios], Giannakis, I.[Iraklis],
Optimising the Complex Refractive Index Model for Estimating the Permittivity of Heterogeneous Concrete Models,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Bezina, Š.[Šime], Stanceric, I.[Ivica], Domitrovic, J.[Josipa], Rukavina, T.[Tatjana],
Spatial Representation of GPR Data: Accuracy of Asphalt Layers Thickness Mapping,
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Cui, X.H.[Xi-Hong], Quan, Z.X.[Zhen-Xian], Chen, X.H.[Xue-Hong], Zhang, Z.[Zheng], Zhou, J.X.[Jun-Xiong], Liu, X.B.[Xin-Bo], Chen, J.[Jin], Cao, X.[Xin], Guo, L.[Li],
GPR-Based Automatic Identification of Root Zones of Influence Using HDBSCAN,
RS(13), No. 6, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Miccinesi, L.[Lapo], Beni, A.[Alessandra], Monchetti, S.[Silvia], Betti, M.[Michele], Borri, C.[Claudio], Pieraccini, M.[Massimiliano],
Ground Penetrating Radar Survey of the Floor of the Accademia Gallery (Florence, Italy),
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Borkovcová, A.[Anna], Borecký, V.[Vladislav], Artagan, S.S.[Salih Serkan], Ševcík, F.[Filip],
Quantification of the Mechanized Ballast Cleaning Process Efficiency Using GPR Technology,
RS(13), No. 8, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Carrer, L.[Leonardo], Schroeder, D.M.[Dustin M.], Romero-Wolf, A.[Andrew], Ries, P.A.[Paul A.], Bruzzone, L.[Lorenzo],
Analysis of Temporal and Structural Characteristics of Jovian Radio Emissions for Passive Radar Sounding of Jupiter's Icy Moons,
GeoRS(59), No. 5, May 2021, pp. 3857-3874.
IEEE DOI 2104
Jupiter, Passive radar, Moon, Correlation, Spaceborne radar, Instruments, Central meridian longitude (CML), Io phase, radar sounder BibRef

Rhee, J.Y.[Ji-Young], Park, K.T.[Keon-Tae], Cho, J.W.[Jin-Woo], Lee, S.Y.[Sang-Yum],
A Study of the Application and the Limitations of GPR Investigation on Underground Survey of the Korean Expressways,
RS(13), No. 9, 2021, pp. xx-yy.
DOI Link 2105
BibRef

Park, S.[Sehwan], Kim, J.[Jinpyung], Jeon, K.[Kyoyoung], Kim, J.[Junkyeong], Park, S.[Seunghee],
Improvement of GPR-Based Rebar Diameter Estimation Using YOLO-v3,
RS(13), No. 10, 2021, pp. xx-yy.
DOI Link 2105
BibRef

Oliveira, R.J.[Rui Jorge], Caldeira, B.[Bento], Teixidó, T.[Teresa], Borges, J.F.[José Fernando],
GPR Clutter Reflection Noise-Filtering through Singular Value Decomposition in the Bidimensional Spectral Domain,
RS(13), No. 10, 2021, pp. xx-yy.
DOI Link 2105
BibRef

Dobreva, I.D.[Iliyana D.], Ruiz-Guzman, H.A.[Henry A.], Barrios-Perez, I.[Ilse], Adams, T.[Tyler], Teare, B.L.[Brody L.], Payton, P.[Paxton], Everett, M.E.[Mark E.], Burow, M.D.[Mark D.], Hays, D.B.[Dirk B.],
Thresholding Analysis and Feature Extraction from 3D Ground Penetrating Radar Data for Noninvasive Assessment of Peanut Yield,
RS(13), No. 10, 2021, pp. xx-yy.
DOI Link 2105
BibRef

Gennarelli, G.[Gianluca], Catapano, I.[Ilaria], Dérobert, X.[Xavier], Soldovieri, F.[Francesco],
A Ground Penetrating Radar Imaging Approach for a Heterogeneous Subsoil With a Vertical Permittivity Gradient,
GeoRS(59), No. 7, July 2021, pp. 5698-5710.
IEEE DOI 2106
Permittivity, Ground penetrating radar, Soil, Integral equations, Radar imaging, Dielectrics, Ground penetrating radar (GPR), linear inverse scattering BibRef

Iqbal, I.[Ibrar], Bin, X.[Xiong], Tian, G.[Gang], Wang, H.H.[Hong-Hua], Sanxi, P.[Peng], Yang, Y.[Yang], Masood, Z.[Zahid], Hanwu, S.[Sun],
Near Surface Velocity Estimation Using GPR Data: Investigations by Numerical Simulation, and Experimental Approach with AVO Response,
RS(13), No. 14, 2021, pp. xx-yy.
DOI Link 2107
BibRef

Berezowski, V.[Victoria], Mallett, X.[Xanthé], Ellis, J.[Justin], Moffat, I.[Ian],
Using Ground Penetrating Radar and Resistivity Methods to Locate Unmarked Graves: A Review,
RS(13), No. 15, 2021, pp. xx-yy.
DOI Link 2108
BibRef

Worthmann, B.M.[Brian M.], Chambers, D.H.[David H.], Perlmutter, D.S.[David S.], Mast, J.E.[Jeffrey E.], Paglieroni, D.W.[David W.], Pechard, C.T.[Christian T.], Stevenson, G.A.[Garrett A.], Bond, S.W.[Steven W.],
Clutter Distributions for Tomographic Image Standardization in Ground-Penetrating Radar,
GeoRS(59), No. 9, September 2021, pp. 7957-7967.
IEEE DOI 2109
Ground penetrating radar, Shape, Log-normal distribution, Transmitting antennas, Standardization, Tomography, Attenuation, Weibull distribution BibRef

Ortyl, L.[Lukasz], Gabrys, M.[Marta],
Subsoil Recognition for Road Investment Supported by the Integration of Geodetic and GPR Data in the Form of a Point Cloud,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
BibRef

Dong, Z.[Zejun], Feng, X.[Xuan], Zhou, H.Q.[Hao-Qiu], Liu, C.[Cai], Sato, M.[Motoyuki],
Effects of Induced Field Rotation From Rough Surface on H-Alpha Decomposition of Full-Polarimetric GPR,
GeoRS(59), No. 11, November 2021, pp. 9192-9208.
IEEE DOI 2111
Surface roughness, Rough surfaces, Surface waves, Scattering, Matrix decomposition, Antenna measurements, Receiving antennas, small perturbation method (SPM) BibRef

Onyszko, K.[Klaudia], Fryskowska-Skibniewska, A.[Anna],
A New Methodology for the Detection and Extraction of Hyperbolas in GPR Images,
RS(13), No. 23, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Wang, Y.Z.[Yuan-Zheng], Qin, H.[Hui], Tang, Y.[Yu], Zhang, D.H.[Dong-Hao], Yang, D.H.[Dong-Hui], Qu, C.X.[Chun-Xu], Geng, T.[Tiesuo],
RCE-GAN: A Rebar Clutter Elimination Network to Improve Tunnel Lining Void Detection from GPR Images,
RS(14), No. 2, 2022, pp. xx-yy.
DOI Link 2201
BibRef

Zhou, H.Q.[Hao-Qiu], Feng, X.[Xuan], Dong, Z.[Zejun], Liu, C.[Cai], Liang, W.J.[Wen-Jing], An, Y.[Yafei],
Local Freeman Decomposition for Robust Imaging and Identification of Subsurface Anomalies Using Misaligned Full-Polarimetric GPR Data,
RS(14), No. 3, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Deidda, G.P.[Gian Piero], Himi, M.[Mahjoub], Barone, I.[Ilaria], Cassiani, G.[Giorgio], Ponsati, A.C.[Albert Casas],
Frequency-Domain Electromagnetic Mapping of an Abandoned Waste Disposal Site: A Case in Sardinia (Italy),
RS(14), No. 4, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Qiu, Z.[Zhi], Zhao, Z.X.[Zuo-Xi], Chen, S.J.[Shao-Ji], Zeng, J.Y.[Jun-Yuan], Huang, Y.[Yuan], Xiang, B.[Borui],
Application of an Improved YOLOv5 Algorithm in Real-Time Detection of Foreign Objects by Ground Penetrating Radar,
RS(14), No. 8, 2022, pp. xx-yy.
DOI Link 2205
BibRef

García-Fernández, M.[María], Álvarez-Narciandi, G.[Guillermo], Álvarez López, Y.[Yuri], Las-Heras Andrés, F.[Fernando],
Improvements in GPR-SAR imaging focusing and detection capabilities of UAV-mounted GPR systems,
PandRS(189), 2022, pp. 128-142.
Elsevier DOI 2206
Ground penetrating radar, Synthetic aperture radar, Unmanned aerial vehicle, Singular value decomposition, Co-registration BibRef

Arévalo-Lomas, L.[Lucía], Biosca, B.[Bárbara], Paredes-Palacios, D.[David], Díaz-Curiel, J.[Jesús],
Processing Radargrams to Obtain Resistivity Sections,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Wang, R.Y.[Rui-Yan], Yin, T.[Tao], Zhou, E.[Enlong], Qi, B.[Bowen],
What Indicative Information of a Subsurface Wetted Body Can Be Detected by a Ground-Penetrating Radar (GPR)? A Laboratory Study and Numerical Simulation,
RS(14), No. 18, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Shang, K.[Ke], Zhang, F.[Feizhou], Song, A.[Ao], Ling, J.Y.[Jian-Yu], Xiao, J.W.[Ji-Wen], Zhang, Z.[Zihan], Qian, R.[Rongyi],
Fast Segmentation and Dynamic Monitoring of Time-Lapse 3D GPR Data Based on U-Net,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Wang, H.[Hui], Ouyang, S.[Shan], Liu, Q.H.[Qing-Hua], Liao, K.[Kefei], Zhou, L.J.[Li-Jun],
Deep-Learning-Based Method for Estimating Permittivity of Ground-Penetrating Radar Targets,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Leibowitz, C.[Caleb], Weiss, A.J.[Anthony J.],
Underground Cavity Detection through Group Dispersion of a GPR Signal,
RS(14), No. 19, 2022, pp. xx-yy.
DOI Link 2210
BibRef

Su, Q.[Qibin], Bi, B.[Beizhen], Zhang, P.Y.[Peng-Yu], Shen, L.[Liang], Huang, X.T.[Xiao-Tao], Xin, Q.[Qin],
GPR Image Clutter Suppression Using Gaussian Curvature Decomposition in the PCA Domain,
RS(14), No. 19, 2022, pp. xx-yy.
DOI Link 2210
BibRef

Wu, S.X.[Shu-Xian], Wang, L.X.[Long-Xiang], Zeng, X.Z.[Xiao-Zhen], Wang, F.[Feng], Liang, Z.C.[Zi-Chang], Ye, H.X.[Hong-Xia],
UAV-Mounted GPR for Object Detection Based on Cross-Correlation Background Subtraction Method,
RS(14), No. 20, 2022, pp. xx-yy.
DOI Link 2211
BibRef

Mendoza, R.[Rosendo], Araque-Perez, C.[Carlos], Marinho, B.[Bruna], Rey, J.[Javier], Hidalgo, M.C.[Mari Carmen],
Processing GPR Surveys in Civil Engineering to Locate Buried Structures in Highly Conductive Subsoils,
RS(15), No. 16, 2023, pp. 4019.
DOI Link 2309
BibRef

Wang, T.C.[Tian-Cheng], Zhang, W.[Wensheng], Li, J.H.[Jin-Hui], Liu, D.[Da], Zhang, L.M.[Li-Min],
Identification of Complex Slope Subsurface Strata Using Ground-Penetrating Radar,
RS(16), No. 2, 2024, pp. 415.
DOI Link 2402
BibRef


Song, W.Y.[Wen-Yuan], Singhose, W.[William], Frakes, D.[David],
Soli Radar Image-Based Target Localization,
ICIP22(746-750)
IEEE DOI 2211
Location awareness, Visualization, Robot kinematics, Time series analysis, Radar, Machine learning, Target tracking, deep learning BibRef

Skartados, E.[Evangelos], Kostavelis, I.[Ioannis], Giakoumis, D.[Dimitrios], Tzovaras, D.[Dimitrios],
Hybrid Geometric Similarity and Local Consistency Measure for GPR Hyperbola Detection,
CVS19(224-233).
Springer DOI 1912
BibRef

Silván-Cárdenas, J.L.[José Luis], Corona-Romero, N.[Nirani], Madrigal-Gómez, J.M.[José Manuel], Saavedra-Guerrero, A.[Aristides], Cortés-Villafranco, T.[Tania], Coronado-Juárez, E.[Erick],
On the Detectability of Buried Remains with Hyperspectral Measurements,
MCPR17(201-212).
Springer DOI 1706
BibRef

Gibb, S.[Spencer], La, H.M.[Hung Manh],
Automated Rebar Detection for Ground-Penetrating Radar,
ISVC16(I: 813-813).
Springer DOI 1701
BibRef

Agrafiotis, P., Lampropoulos, K., Georgopoulos, A., Moropoulou, A.,
3d Modelling the Invisible Using Ground Penetrating Radar,
3DARCH17(33-37).
DOI Link 1805
BibRef

Bircher, S.[Simone], Demontoux, F.[François], Razafindratsima, S.[Stephen], Zakharova, E.[Elena], Drusch, M.[Matthias], Wigneron, J.P.[Jean-Pierre], Kerr, Y.H.[Yann H.],
L-Band Relative Permittivity of Organic Soil Surface Layers: A New Dataset of Resonant Cavity Measurements and Model Evaluation,
RS(8), No. 12, 2016, pp. 1024.
DOI Link 1612
BibRef
And: Erratum: RS(9), No. 5, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Stylianou, A., O'Sullivan, J.D., Abrams, A., Pless, R.,
Images don't forget: Online photogrammetry to find lost graves,
AIPR14(1-8)
IEEE DOI 1504
calibration BibRef

Thanh, N.T.[Nguyen Trung], Hao, D.N.[Dinh Nho], Sahli, H.[Hichem],
Passive infrared technique for buried object detection and classification,
OTCBVS11(1-6).
IEEE DOI 1106
BibRef

Zhou, Y.[Yue], Niu, Z.B.[Zhi-Bin], Wang, C.H.[Cheng-Hao],
A Novel Approach to Detect Ship-Radiated Signal Based on HMT,
ICPR10(4601-4604).
IEEE DOI 1008
underwater signal. BibRef

Martinez, O.[Oriol], Ferraz, L.[Luis], Binefa, X.[Xavier], Gomez, I.[Ignacio], Dorronsoro, C.[Carlos],
Concealed object detection and segmentation over millimetric waves images,
OTCBVS10(31-37).
IEEE DOI 1006
BibRef

Dong, L.F.[Li-Fang], Xiao, H.[Hong], Zhao, H.T.[Hai-Tao], Xie, W.X.[Wei-Xia], He, Y.F.[Ya-Feng], Wang, S.[Shuai],
Processing of Signals of Ring-Shaped Spots in Dielectric Barrier Discharge,
CISP09(1-3).
IEEE DOI 0910
BibRef

Hsu, M.K.[Ming Kai], Byrd, K., Lee, T.N., Hsu, C., Szu, H.,
Dual IR spectral video inspection of a concealed live animal,
AIPR08(1-4).
IEEE DOI 0810
BibRef

Tominaga, S.[Shoji], Yamamoto, T.[Tetsuya],
Metal-dielectric object classification by polarization degree map,
ICPR08(1-4).
IEEE DOI 0812
BibRef

Maruyama, K.[Kenichi], Oka, K.[Koji], Takase, R.[Ryuichi], Kawai, Y.[Yoshihiro], Yoshimi, T.[Takashi], Takahashi, H.[Hironobu], Tomita, F.[Fumiaki],
3D localization of partially buried object in unstructured environment,
ICPR08(1-4).
IEEE DOI 0812
BibRef

Mukaigawa, Y.[Yasuhiro], Suzuki, K.[Kazuya], Yagi, Y.S.[Yasu-Shi],
Analysis of subsurface scattering under generic illumination,
ICPR08(1-5).
IEEE DOI 0812
BibRef

Sadjadi, F.[Firooz], Sullivan, A.[Anders], Gaunaurd, G.[Guillermo],
Detection of buried objects using GPR change detection in polarimetric Huynen spaces,
OTCBVS08(1-6).
IEEE DOI 0806
BibRef

Biccari, D., Calabrese, D., Gurnett, D., Huff, R., Marinangeli, L., Jordan, R., Nielsen, E., Ori, G.G., Picardi, G., Plaut, J., Provvedi, F., Seu, R., Zampolini, E.,
VENUS subsurface ionosphere radar sounder: VENSiS,
3DPVT04(931-937).
IEEE DOI 0412
BibRef

Feng, H., Castanon, D.A., Karl, W.C.,
A Statistical Approach to Rough Surface Underground Imaging,
ICIP00(Vol I: 705-708).
IEEE DOI 0008

See also curve evolution approach to object-based tomographic reconstruction, A. BibRef

Martin, J., Kubota, T.,
Imaging Near-surface Buried Structure with High-resolution Surface-wave Group-velocity Tomography,
ICIP00(Vol II: 641-644).
IEEE DOI 0008
BibRef

Boulinguez, D., Quinquis, A.,
Underwater buried object recognition using wavelet packets and Fourier descriptors,
CIAP99(478-483).
IEEE DOI 9909
BibRef

Cadalli, N., Frazier, C.H., Munson, Jr., D.C., O'Brien, Jr., W.D.,
Acoustic imaging of objects buried in soil,
ICIP98(I: 14-18).
IEEE DOI 9810
BibRef

Chapter on Cartography, Aerial Images, Buildings, Roads, Terrain, Forests, Trees, ATR continues in
Terahertz Ground Penetrating Radar, THz .


Last update:Mar 16, 2024 at 20:36:19