Classification of Landmine-Like Objects Buried under Rough Ground Surfaces Using a Ground Penetrating Radar(Inverse Problems,<Special Section>Recent Progress in Electromagnetic Theory and Its Application)
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概要
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A feature for classification of shallowly buried landmine-like objects using a ground penetrating radar (GPR) measurement system is proposed and its performance is evaluated. The feature for classification employed here is a time interval between two pulses reflected from top and bottom sides of landmine-like objects. First, we estimate a time resolution required to detect object thickness from GPR data, and check the actual time resolution through laboratory experiment. Next, we evaluate the classification performance using Monte Carlo simulations from dataset generated by a two-dimensional finite difference time domain (FDTD) method. The results show that good classification performance is achieved even for landmine-like objects buried at shallow depths under rough ground surfaces. Furthermore, we also estimate the effects of ground surface roughness, soil inhomogeneity, and target inclination on the classification performance.
- 社団法人電子情報通信学会の論文
- 2007-02-01
著者
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NISHIMOTO Masahiko
Kumamoto University
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Ueno Shuichi
Kumamoto University
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Kimura Yusuke
Kumamoto University
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NAGAYOSHI Keiichi
Kumamoto University
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Nishimoto Masahiko
Kumamoto Univ. Kumamoto‐shi Jpn
関連論文
- Target Identification from Multi-Aspect High Range-Resolution Radar Signatures Using a Hidden Markov Model(Electromagnetic Theory)
- Ground Clutter Reduction from GPR Data for Identification of Shallowly Buried Landmines
- Classification of Landmine-Like Objects Buried under Rough Ground Surfaces Using a Ground Penetrating Radar(Inverse Problems,Recent Progress in Electromagnetic Theory and Its Application)
- A Method for Detecting Shallowly Buried Landmines Using Sequential GPR Data(2004 International Symposium on Antennas and Propagation)
- Numerical Analysis of Plane Wave Diffraction by a Semi-Infinite Grating
- On the Estimation of Rough Surface Parameters from Surface Profile Data : Correlation Length Estimate Using a Surface Slope Function
- Extraction of Target Responses from Ground Penetrating Radar Signals Using the Matching Pursuits(Sensing)
- Detection of Shallowly Buried Landmines Using Sequential Ground Penetrating Radar Signals
- Waveform Calibration of Ground Penetrating Radars for Identification of Buried Objects
- FOREWORD
- Extraction of a Target Response from GPR Data for Identification of Buried Objects