Peter A. Torrione scite author profile

Ground-penetrating radar (GPR) is a powerful and rapidly maturing technology for subsurface threat identification. However, sophisticated processing of GPR data is necessary to reduce false alarms due to naturally occurring subsurface clutter and soil distortions. Most currently fielded GPR-based landmine detection algorithms utilize feature extraction and statistical learning to develop robust classifiers capable of discriminating buried threats from inert subsurface structures. Analysis of these techniques indicates strong underlying similarities between efficient landmine detection algorithms and modern techniques for feature extraction in the computer vision literature. This paper explores the relationship between and application of one modern computer vision feature extraction technique, namely histogram of oriented gradients (HOG), to landmine detection in GPR data. The results presented indicate that HOG features provide a robust tool for target identification for both classification and prescreening and suggest that other techniques from computer vision might also be successfully applied to target detection in GPR data. Index Terms-Computer vision, edge histogram descriptors, ground-penetrating radar (GPR), histogram of oriented gradients (HOG), random forest.

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Performance of an adaptive feature-based processor for a wideband ground penetrating radar system

Torrione

Throckmorton

Collins

2006

IEEE Trans. Aerosp. Electron. Syst.

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Random set framework for multiple instance learning

Bolton

Gader

Frigui

et al. 2011

Information Sciences

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Texture Features for Antitank Landmine Detection Using Ground Penetrating Radar

Torrione

Collins

2007

IEEE Trans. Geosci. Remote Sensing

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Recognizing subsurface target responses in ground penetrating radar data using convolutional neural networks

Sakaguchi¹,

Morton

Collins

et al. 2015

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Improved performance in the discrimination of buried threats using Ground Penetrating Radar (GPR) data has recently been achieved using features developed for applications in computer vision. These features, designed to characterize local shape information in images, have been utilized to recognize patches that contain a target signature in two-dimensional slices of GPR data. While these adapted features perform very well in this GPR application, they were not designed to specifically differentiate between target responses and background GPR data. One option for developing a feature specifically designed for target differentiation is to manually design a feature extractor based on the physics of GPR image formation. However, as seen in the historical progression of computer vision features, this is not a trivial task. Instead, this research evaluates the use of convolutional neural networks (CNNs) applied to two-dimensional GPR data. The benefit of using a CNN is that features extracted from the data are a learned parameter of the system. This has allowed CNN implementations to achieve state of the art performance across a variety of data types, including visual images, without the need for expert designed features. However, the implementation of a CNN must be done carefully for each application as network parameters can cause performance to vary widely. This paper presents results from using CNNs for object detection in GPR data and discusses proper parameter settings and other considerations.

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Peter A. Torrione

Histograms of Oriented Gradients for Landmine Detection in Ground-Penetrating Radar Data

Performance of an adaptive feature-based processor for a wideband ground penetrating radar system

Random set framework for multiple instance learning

Texture Features for Antitank Landmine Detection Using Ground Penetrating Radar

Recognizing subsurface target responses in ground penetrating radar data using convolutional neural networks

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