Influence of soil inhomogeneity on GPR for landmine detection

Kazunori Takahashi; Jan Igel; Holger Preetz

doi:10.1109/ICGPR.2010.5550150

Influence of soil inhomogeneity on GPR for landmine detection

Kazunori Takahashi, Jan Igel, Holger Preetz

Department of Basic Studies

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

7 Citations (Scopus)

Abstract

Landmine detection by ground-penetrating radar (GPR) becomes challenging when soil is inhomogeneous. Soil inhomogeneity causes unwanted reflections (clutter) which disturb reflections from landmines. Thorough investigations on the influence of soil inhomogeneity and clutter on GPR are important for the use in demining to assess the performance and ensure the safety of the operation. In order to observe the influence of soil inhomogeneity an irrigation test was carried out and GPR data were collected after the irrigation while soil water content distribution was changing. Correlation length and variability of soil electric properties are determined by geostatistical analysis from GPR data. The theoretical calculation of Mie scattering using the determined parameters is in good agreement with power of clutter extracted from GPR data. Therefore it is demonstrated that scattering by soil inhomogeneity is governed by Mie scattering.

Original language	English
Title of host publication	Proceedings of the 13th Internarional Conference on Ground Penetrating Radar, GPR 2010
DOIs	https://doi.org/10.1109/ICGPR.2010.5550150
Publication status	Published - 2010 Sept 17
Event	13th Internarional Conference on Ground Penetrating Radar, GPR 2010 - Lecce, Italy Duration: 2010 Jun 21 → 2010 Jun 25

Publication series

Name	Proceedings of the 13th Internarional Conference on Ground Penetrating Radar, GPR 2010

Other

Other	13th Internarional Conference on Ground Penetrating Radar, GPR 2010
Country/Territory	Italy
City	Lecce
Period	10/6/21 → 10/6/25

Keywords

Geostatistics
Landmine detection
Scattering theory
Semivariogram
Soil inhomogeneity

ASJC Scopus subject areas

Computer Networks and Communications
Communication

Access to Document

10.1109/ICGPR.2010.5550150

Cite this

Influence of soil inhomogeneity on GPR for landmine detection. / Takahashi, Kazunori; Igel, Jan; Preetz, Holger.

Proceedings of the 13th Internarional Conference on Ground Penetrating Radar, GPR 2010. 2010. 5550150 (Proceedings of the 13th Internarional Conference on Ground Penetrating Radar, GPR 2010).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Takahashi, K, Igel, J & Preetz, H 2010, Influence of soil inhomogeneity on GPR for landmine detection. in Proceedings of the 13th Internarional Conference on Ground Penetrating Radar, GPR 2010., 5550150, Proceedings of the 13th Internarional Conference on Ground Penetrating Radar, GPR 2010, 13th Internarional Conference on Ground Penetrating Radar, GPR 2010, Lecce, Italy, 10/6/21. https://doi.org/10.1109/ICGPR.2010.5550150

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title = "Influence of soil inhomogeneity on GPR for landmine detection",

abstract = "Landmine detection by ground-penetrating radar (GPR) becomes challenging when soil is inhomogeneous. Soil inhomogeneity causes unwanted reflections (clutter) which disturb reflections from landmines. Thorough investigations on the influence of soil inhomogeneity and clutter on GPR are important for the use in demining to assess the performance and ensure the safety of the operation. In order to observe the influence of soil inhomogeneity an irrigation test was carried out and GPR data were collected after the irrigation while soil water content distribution was changing. Correlation length and variability of soil electric properties are determined by geostatistical analysis from GPR data. The theoretical calculation of Mie scattering using the determined parameters is in good agreement with power of clutter extracted from GPR data. Therefore it is demonstrated that scattering by soil inhomogeneity is governed by Mie scattering.",

keywords = "Geostatistics, Landmine detection, Scattering theory, Semivariogram, Soil inhomogeneity",

author = "Kazunori Takahashi and Jan Igel and Holger Preetz",

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AU - Preetz, Holger

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N2 - Landmine detection by ground-penetrating radar (GPR) becomes challenging when soil is inhomogeneous. Soil inhomogeneity causes unwanted reflections (clutter) which disturb reflections from landmines. Thorough investigations on the influence of soil inhomogeneity and clutter on GPR are important for the use in demining to assess the performance and ensure the safety of the operation. In order to observe the influence of soil inhomogeneity an irrigation test was carried out and GPR data were collected after the irrigation while soil water content distribution was changing. Correlation length and variability of soil electric properties are determined by geostatistical analysis from GPR data. The theoretical calculation of Mie scattering using the determined parameters is in good agreement with power of clutter extracted from GPR data. Therefore it is demonstrated that scattering by soil inhomogeneity is governed by Mie scattering.

AB - Landmine detection by ground-penetrating radar (GPR) becomes challenging when soil is inhomogeneous. Soil inhomogeneity causes unwanted reflections (clutter) which disturb reflections from landmines. Thorough investigations on the influence of soil inhomogeneity and clutter on GPR are important for the use in demining to assess the performance and ensure the safety of the operation. In order to observe the influence of soil inhomogeneity an irrigation test was carried out and GPR data were collected after the irrigation while soil water content distribution was changing. Correlation length and variability of soil electric properties are determined by geostatistical analysis from GPR data. The theoretical calculation of Mie scattering using the determined parameters is in good agreement with power of clutter extracted from GPR data. Therefore it is demonstrated that scattering by soil inhomogeneity is governed by Mie scattering.

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Influence of soil inhomogeneity on GPR for landmine detection

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