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Detection of model voids by identifying reverberation phenomena in GPR records
Authors:Lev Kofman   Amit Ronen  Sam Frydman  
Affiliation:aTechnion-Israel Institute of Technology, Technion City, Haifa, 32000 Israel;bGeotec-Engineering & Environmental Geophysics Ltd., P.O.B. 25031 Rishon Lezion, 75720 Israel
Abstract:In order to improve the reliability of the ground penetrating radar (GPR) method in identifying subsurface sinkholes and karst cavities, laboratory investigations have been performed. The main objective of this work was to examine the relationship between horizontal/vertical voids dimensions and wavelengths of various antennas, and the corresponding GPR responses. Emphasis was given to the investigation of the factors that cause the appearance of reverberation phenomena in the signal pattern.The tests were conducted in 5 m × 10 m area by 2-m-deep trench filled with homogenous, dry sand. The voids models (empty fiberglass cylinders in diameters of 0.6 m, 1.0 m, 1.5 m and 2.4 m, with various heights) were buried vertically with their tops at depths of between 0.7 and 1.5 m. Investigations were performed for the various model conditions by towing 500, 300 and 100 MHz antennas along a pre-established grid, for the various model conditions.The GPR data collected using the 500 MHz bistatic antenna above the 1.0-m- and the 1.5-m-diameter cylinders, and using the 300 MHz bistatic antenna above the 1.5-m-diameter cylinder, confirmed the presence of a reverberation phenomenon, i.e. a strong convex signal pattern, containing a series of high amplitude extending oscillations with reduced frequency.Based on past practical GPR experience of void detection and presently obtained experimental data, two rules of thumbs may be adopted for the prediction of the appearance of resonant radar pictures:
1. The void diameter larger than the wavelength in air of the antenna used.
2. The vertical size of the empty void not significantly smaller than its horizontal dimension.
The strong reverberations generated by the inner surface of the void targets were found to approximate standing waves generated in cylindrical waveguides and waveguide resonators. The theoretical, experimental and practical results obtained concur.
Keywords:GPR   Model voids   Reverberation phenomenon   Test site experiment   Karst cavities   Waveguide resonators
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