Pachara Srimuk scite author profile

Pachara Srimuk

3Publications

3Citation Statements Received

0Citation Statements Given

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King Mongkut's University of Technology North Bangkok

Publications

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Implementation of and Experimentation with Ground-Penetrating Radar for Real-Time Automatic Detection of Buried Improvised Explosive Devices

Srimuk

Boonpoonga

Kaemarungsi

et al. 2022

Sensors

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This paper proposes the implementation of and experimentation with GPR for real-time automatic detection of buried IEDs. GPR, consisting of hardware and software, was implemented. A UWB antenna was designed and implemented, particularly for the operation of the GPR. The experiments were conducted in order to demonstrate the real-time automatic detection of buried IEDs using GPR with an R-CNN algorithm. In the experiments, the GPR was mounted on a pickup truck and a maintenance train in order to find the IEDs buried under a road and a railway, respectively. B-scan images were collected using the implemented GPR. R-CNN-based detection for the hyperbolic pattern, which indicates the buried IED, was performed along with pre-processing, for example, using zero offset removal, and background removal and filtering. Experimental results in terms of detecting the hyperbolic pattern in B-scan images were shown and verified that the proposed GPR system is superior to the conventional one using region analysis processing-based detection. Results also showed that pre-processing is required in order to improve and/or clean the hyperbolic pattern before detection. The GPR can automatically detect IEDs buried under roads and railways in real time by detecting the hyperbolic pattern appearing in the collected B-scan image.

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Hyperbolic Pattern Detection in Ground Penetrating Radar Images Using Faster R-CNN

Srimuk

Boonpoonga

Kaemarungsi

et al. 2023

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FPGA implementation for GPR signal processing based on HW/SW co-design architecture

Srimuk

Boonpoonga

Burintramart³

2015

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Pachara Srimuk

Implementation of and Experimentation with Ground-Penetrating Radar for Real-Time Automatic Detection of Buried Improvised Explosive Devices

Hyperbolic Pattern Detection in Ground Penetrating Radar Images Using Faster R-CNN

FPGA implementation for GPR signal processing based on HW/SW co-design architecture

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