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Identification of metallic objects using spectral MPT signatures: object characterisation and invariants

Ledger, Paul D.; Wilson, Ben A.; Amas, AAS; Lionheart, William R. B.

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Authors

Ben A. Wilson

AAS Amas

William R. B. Lionheart



Abstract

The early detection of terrorist threat objects, such as guns and knives, through improved metal detection, has the potential to reduce the number of attacks and improve public safety and security. To achieve this, there is considerable potential to use the felds applied and measured by a metal detector to discriminate between different shapes and different metals since, hidden within the field perturbation, is object characterisation information. The magnetic polarizability tensor (MPT) offers an economical characterisation of metallic objects that can be computed for different threat and non-threat objects and has an established theoretical background, which shows that the induced voltage is a function of the hidden object's MPT coeffcients. In this paper, we describe the additional characterisation information that measurements of the induced voltage over a range of frequencies offer compared to measurements at a single frequency. We call such object characterisations its MPT spectral signature. Then, we present a series of alternative rotational invariants for the purpose of classifying hidden objects using MPT spectral signatures. Finally, we include examples of computed MPT spectral signature characterisations of realistic threat and non-threat objects that can be used to train machine learning algorithms for classification purposes.

Citation

Ledger, P. D., Wilson, B. A., Amad, A. A. S., Amas, A., & Lionheart, W. R. B. (2021). Identification of metallic objects using spectral MPT signatures: object characterisation and invariants. International Journal for Numerical Methods in Engineering, 122(15), 3941-3984. https://doi.org/10.1002/nme.6688

Journal Article Type Article
Acceptance Date Mar 23, 2021
Online Publication Date May 25, 2021
Publication Date Aug 15, 2021
Publicly Available Date May 30, 2023
Journal International Journal of Numerical Methods in Engineering
Print ISSN 0029-5981
Publisher Wiley
Volume 122
Issue 15
Pages 3941-3984
DOI https://doi.org/10.1002/nme.6688
Keywords Finite element method; Magnetic polarizability tensor; Machine learning; Metal detection; Object classification; Reduced order model; Spectral; Validation.
Public URL https://keele-repository.worktribe.com/output/419530
Publisher URL https://onlinelibrary.wiley.com/doi/abs/10.1002/nme.6688

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