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Effect of soil roughness on the inversion of off-ground monostatic GPR signal for noninvasive quantification of soil properties

Bibliographic reference Lambot, Sébastien ; Antoine, Michaël ; Vanclooster, Marnik ; Slob, EC. Effect of soil roughness on the inversion of off-ground monostatic GPR signal for noninvasive quantification of soil properties. In: Water Resources Research, Vol. 42, no. 3 (2006)
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  1. Balanis, Antenna Theory: Analysis and Design (1997)
  2. Beckmann, The Scattering of Electromagnetic Waves From Rough Surfaces (1987)
  3. Boithias, Radio Wave Propagation (1987)
  4. Chanzy A., Tarussov A., Bonn F., Judge A., Soil Water Content Determination Using a Digital Ground-Penetrating Radar, 10.2136/sssaj1996.03615995006000050005x
  5. Chen K.S., Fung A.K., A comparison of backscattering models for rough surfaces, 10.1109/36.368209
  6. Chen M.F., Bai S.Y., Computer Simulation of Wave Scattering from a Dielectric Random Surface in Two Dimensions-Cylindrical Case, 10.1163/156939390x00708
  7. Davidson M.W.J., Thuy Le Toan, Mattia F., Satalino G., Manninen T., Borgeaud M., On the characterization of agricultural soil roughness for radar remote sensing studies, 10.1109/36.841993
  8. Davis, Methods of Soil Analysis, part 4, Physical Methods, 446 (2002)
  9. Dierking W., Quantitative roughness characterization of geological surfaces and implications for radar signature analysis, 10.1109/36.789638
  10. Dogaru T., Carin L., Time-domain sensing of targets buried under a Gaussian, exponential, or fractal rough interface, 10.1109/36.942559
  11. Du, Proceedings of the Fifth International Conference on Ground Penetrating Radar, 1241 (1994)
  12. El-Shenawee M., Miller E.L., Multiple-incidence and multifrequency for profile reconstruction of random rough surfaces using the 3-D electromagnetic fast multipole model, 10.1109/tgrs.2004.834762
  13. Fung A.K., Li Z., Chen K.S., Backscattering from a randomly rough dielectric surface, 10.1109/36.134085
  14. Hallikainen Martti, Ulaby Fawwaz, Dobson Myron, El-rayes Mohamed, Wu Lil-kun, Microwave Dielectric Behavior of Wet Soil-Part 1: Empirical Models and Experimental Observations, 10.1109/tgrs.1985.289497
  15. Hastings F.D., Schneider J.B., Broschat S.L., A Monte-Carlo FDTD technique for rough surface scattering, 10.1109/8.475089
  16. Heimovaara T. J., de Winter E. J. G., van Loon W. K. P., Esveld D. C., Frequency-Dependent Dielectric Permittivity from 0 to 1 GHz: Time Domain Reflectometry Measurements Compared with Frequency Domain Network Analyzer Measurements, 10.1029/96wr02695
  17. Hipp J.E., Soil electromagnetic parameters as functions of frequency, soil density, and soil moisture, 10.1109/proc.1974.9389
  18. Huisman J.A., Sperl C., Bouten W., Verstraten J.M., Soil water content measurements at different scales: accuracy of time domain reflectometry and ground-penetrating radar, 10.1016/s0022-1694(01)00336-5
  19. Huisman J. A., Hubbard S. S., Redman J. D., Annan A. P., Measuring Soil Water Content with Ground Penetrating Radar, 10.2136/vzj2003.4760
  20. Huyer Waltraud, Neumaier Arnold, 10.1023/a:1008382309369
  21. Lagarias Jeffrey C., Reeds James A., Wright Margaret H., Wright Paul E., Convergence Properties of the Nelder--Mead Simplex Method in Low Dimensions, 10.1137/s1052623496303470
  22. Lambot S., Javaux M., Hupet F., Vanclooster M., A global multilevel coordinate search procedure for estimating the unsaturated soil hydraulic properties : GMCS-NMS INVERSION FOR SOIL HYDRAULIC FUNCTIONS, 10.1029/2001wr001224
  23. Lambot S., Antoine M., van den Bosch I., Slob E. C., Vanclooster M., Electromagnetic Inversion of GPR Signals and Subsequent Hydrodynamic Inversion to Estimate Effective Vadose Zone Hydraulic Properties, 10.2136/vzj2004.1072
  24. Lambot S., Rhebergen J., van den Bosch I., Slob E. C., Vanclooster M., Measuring the Soil Water Content Profile of a Sandy Soil with an Off-Ground Monostatic Ground Penetrating Radar, 10.2136/vzj2004.1063
  25. Lambot S., Slob E. C., van den Bosch I., Stockbroeckx B., Scheers B., Vanclooster M., Estimating soil electric properties from monostatic ground-penetrating radar signal inversion in the frequency domain : SOIL ELECTRIC PROPERTIES FROM GPR SIGNAL INVERSION, 10.1029/2003wr002095
  26. Lambot S., Slob E.C., van den Bosch I., Stockbroeckx B., Vanclooster M., Modeling of ground-penetrating Radar for accurate characterization of subsurface electric properties, 10.1109/tgrs.2004.834800
  27. Lambot Sébastien, Bosch Idesbald van den, Stockbroeckx Benoit, Druyts Pascal, Vanclooster Marnik, Slob Evert, Frequency Dependence of the Soil Electromagnetic Properties Derived from Ground-Penetrating Radar Signal Inversion, 10.1007/s11220-005-4228-x
  28. Lambot, Proceedings of the 3rd International Workshop on Advanced Ground Penetrating Radar, 113 (2005)
  29. Lampe Bernhard, Holliger Klaus, Effects of fractal fluctuations in topographic relief, permittivity and conductivity on ground‐penetrating radar antenna radiation, 10.1190/1.1635047
  30. Mancini Marco, Hoeben Rudi, Troch Peter A., Multifrequency radar observations of bare surface soil moisture content: A laboratory experiment, 10.1029/1999wr900033
  31. Michalski K.A., Mosig J.R., Multilayered media Green's functions in integral equation formulations, 10.1109/8.558666
  32. Michalski K.A., Zheng D., Electromagnetic scattering and radiation by surfaces of arbitrary shape in layered media. I. Theory, 10.1109/8.52240
  33. O'Neill K., Lussky R.F., Paulsen K.D., Scattering from a metallic object embedded near the randomly rough surface of a lossy dielectric, 10.1109/36.485114
  34. Peterson, Computational Methods for Electromagnetics (1998)
  35. Sai B., Ligthart L.P., GPR Phase-Based Techniques for Profiling Rough Surfaces and Detecting Small, Low-Contrast Landmines Under Flat Ground, 10.1109/tgrs.2003.817204
  36. Slob Evert, Fokkema Jacob, Coupling effects of two electric dipoles on an interface : COUPLING EFFECTS OF TWO ELECTRIC DIPOLES ON AN INTERFACE, 10.1029/2001rs002529
  37. Tai, Dyadic Green Function in Electromagnetic Theory (1994)
  38. Ulaby, Microwave Remote Sensing: Active and Passive, vol. III, From Theory to Applications (1986)
  39. van Overmeeren R.A, Sariowan S.V, Gehrels J.C, Ground penetrating radar for determining volumetric soil water content; results of comparative measurements at two test sites, 10.1016/s0022-1694(96)03244-1
  40. Warnick Karl F, Chew Weng Cho, Numerical simulation methods for rough surface scattering, 10.1088/0959-7174/11/1/201
  41. Weiler Kirk W., Steenhuis Tammo S., Boll Jan, Kung K.-J. Samuel, Comparison of Ground Penetrating Radar and Time-Domain Reflectometry as Soil Water Sensors, 10.2136/sssaj1998.03615995006200050013x
  42. West L. Jared, Handley Kirk, Huang Yi, Pokar Magdeline, Radar frequency dielectric dispersion in sandstone: Implications for determination of moisture and clay content : DIELECTRIC DISPERSION IN SANDSTONE, 10.1029/2001wr000923
  43. Yarovoy A.G., Vazouras C.N., Fikioris J.G., Ligthart L.P., Numerical Simulations of the Scattered Field Near a Statistically Rough Air-Ground Interface, 10.1109/tap.2004.825499
  44. Zhang G., Tsang L., Kuga Y., Studies of the angular correlation function of scattering by random rough surfaces with and without a buried object, 10.1109/36.563283