Detection of Metallic Objects in Mineralized Soil Using Magnetic Induction Spectroscopy

Verre, Wouter van; Marsh, Liam A; Davidson, Jennifer L.; Cheadle, E; Podd, Frank; Peyton, A. J.

doi:10.1109/tgrs.2020.2994814

Cited by 9 publications

(3 citation statements)

References 26 publications

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“…The ADCs and DACs are interfaced with the FPGA fabric in the SoC, to ensure accurate timing between all four channels. The system is modified from one previously designed spectroscopic metal detector [42], [43]. The data processing on the SoC is split between the FPGA fabric and the ARM cores; the full processing chain is shown in Fig.…”

Section: Data Acquisition and Digital Signal Processingmentioning

confidence: 99%

Measuring the Magnetic Polarizability Tensor Using an Axial Multi-Coil Geometry

et al. 2021

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The Magnetic Polarizability Tensor (MPT) is a representative property of an electrically conducting or magnetic object that includes information about the object's characteristics such as, shape, size and material. The MPT is especially relevant to metal detection (MD) and can be used to improve MD performance by helping to distinguish between objects. This paper describes an instrument intended to measure the MPT of objects such as anti-personnel landmines and metallic clutter, up to 130 mm in diameter. The instrument uses a novel multi-coil geometry to generate a uniform electromagnetic field over the volume containing the test object to accurately determine the MPT. Performance tests of the system shows peak variance in the MPT is approximately 15 mm 3 . Typical experimental repeatability is better than one percent for tests involving copper disks. Additionally, simulated data as well as previously published simulated and experimental data are used as a validation method of the experimental results. Good agreement between these and the measured MPTs of example targets are seen, proving the system's capability of characterizing metallic objects.

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Section: Data Acquisition and Digital Signal Processingmentioning

confidence: 99%

Measuring the Magnetic Polarizability Tensor Using an Axial Multi-Coil Geometry

et al. 2021

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“…The response to these antennas can be compared to that of mineralised soil and various metal objects tested in previous work [25]. A heavily mineralised soil, at a typical standoff distance of 2-3 cm, has response with a magnitude of approximately 4 Ferrite Units (indicated with the dashed line in Figure 20).…”

Section: Buried Object Detectionmentioning

confidence: 99%

Reducing the Induction Footprint of Ultra-Wideband Antennas for Ground-Penetrating Radar in Dual-Modality Detectors

Verre

Podd

Gao

et al. 2021

IEEE Trans. Antennas Propagat.

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The combination of metal detection (MD) and ground-penetrating radar (GPR) has been successfully deployed to combat the threat from buried anti-personnel landmines. A number of issues arise from the close integration of these two sensing modalities. One issue is the proximity of the metallic GPR antennas to the MD coils, which affects the performance of the MD due to the eddy currents created within the GPR antenna structure. In this paper the effect of traditional solid bowtie antenna design on a MD is investigated, and avenues for the reduction of the eddy currents are explored. Three modifications to the solid bowtie design are proposed and evaluated. This paper presents measurements of the MD response to all four antenna designs using a magnetic induction spectroscopy sensor. It was found that the MD response to the bowtie antenna can be reduced by 91% to 98% across the MD operating frequency band, without significantly altering the RF performance, such as reflection and transmission coefficient and radiation pattern.

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“…11 Based on the eddy current effect, a metal detection method using eddy current sensor is proposed by combining two high-frequency sensors and one low-frequency sensor. 12 van Verre et al 13 studies a new hand-held detector system based on magnetic induction spectroscopy (MIS), which can be used to detect buried metal objects. The dual high metal detector array is used on the vehicle platform to highlight the more likely objects of interest and eliminate unnecessary clutter.…”

Section: Introductionmentioning

confidence: 99%

An anti-interference method and system for detecting shallow-ground metal based on hyper-sphere model

Shi

Wang

et al. 2023

Measurement and Control

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Based on the research background of shallow-ground metal detection under the environment with the interference of steeling structure,a metal detection method based on the transient electromagnetic method is studied. The test platform is built and verified by experiments. Firstly, the loos model of the coil system is established, and the transfer function with the excitation voltage source as the input signal and the induced voltage of the metal conductor as the output signal is derived. The system design of metal detection based on pulse electromagnetic induction is carried out, and a simple and feasible experimental platform is built according to the demand. Aiming at the signal processing problem of metal detection in a complex environment such as steel structure, a detection algorithm based on a hypersphere model and confidence interval is applied. Finally, the experimental verification is carried out. The results show that the designed system is feasible for metal detection, and the applied signal processing algorithm is effective although interfering by steeling structure inthe environment.

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Detection of Metallic Objects in Mineralized Soil Using Magnetic Induction Spectroscopy

Cited by 9 publications

References 26 publications

Measuring the Magnetic Polarizability Tensor Using an Axial Multi-Coil Geometry

Measuring the Magnetic Polarizability Tensor Using an Axial Multi-Coil Geometry

Reducing the Induction Footprint of Ultra-Wideband Antennas for Ground-Penetrating Radar in Dual-Modality Detectors

An anti-interference method and system for detecting shallow-ground metal based on hyper-sphere model

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