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Three-dimensional features, based on beamforming at multiple depths, improves landmine detection with a forward-looking ground-penetrating radar

Publication ,  Conference
Camilo, JA; Collins, LM; Malof, JM
Published in: 2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings
July 28, 2017

Forward-looking ground-penetrating radar (FLGPR) has been investigated as a remote sensing modality for buried threat detection (e.g., landmines). Generally in this context, raw FLGPR data is beamformed into two-dimensional images and then automated algorithms are applied to detect buried threats. The beamformed images represent a crude estimate of the energy reflected from the subsurface (i) across a particular spatial extent, and (ii) at a particular depth. Typically, a single focus depth (e.g.,-0.25 meters) is used to beamform all of the imagery. In this work we hypothesize that this approach disregards important factors such as the likely variable burial depth of threats, and varying contours of the ground. We examine this hypothesis by beamforming multiple images, each at a separate focus depth, and stack them to form 3-dimensional (3D) volumes. Several popular FLGPR detection algorithms are applied to both the 3D volumes and the conventional 2D images on a large collection of FLGPR data. The results show that the 3D detectors consistently outperform their 2D counterparts. This suggests that the use of a single beamforming focus depth for imaging is a potential performance bottleneck for threat detection in FLGPR data.

Duke Scholars

Published In

2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings

DOI

Publication Date

July 28, 2017
 

Citation

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Camilo, J. A., Collins, L. M., & Malof, J. M. (2017). Three-dimensional features, based on beamforming at multiple depths, improves landmine detection with a forward-looking ground-penetrating radar. In 2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings. https://doi.org/10.1109/IWAGPR.2017.7996107
Camilo, J. A., L. M. Collins, and J. M. Malof. “Three-dimensional features, based on beamforming at multiple depths, improves landmine detection with a forward-looking ground-penetrating radar.” In 2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings, 2017. https://doi.org/10.1109/IWAGPR.2017.7996107.
Camilo JA, Collins LM, Malof JM. Three-dimensional features, based on beamforming at multiple depths, improves landmine detection with a forward-looking ground-penetrating radar. In: 2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings. 2017.
Camilo, J. A., et al. “Three-dimensional features, based on beamforming at multiple depths, improves landmine detection with a forward-looking ground-penetrating radar.” 2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings, 2017. Scopus, doi:10.1109/IWAGPR.2017.7996107.
Camilo JA, Collins LM, Malof JM. Three-dimensional features, based on beamforming at multiple depths, improves landmine detection with a forward-looking ground-penetrating radar. 2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings. 2017.

Published In

2017 9th International Workshop on Advanced Ground Penetrating Radar, IWAGPR 2017 - Proceedings

DOI

Publication Date

July 28, 2017