Reference-free passive RF imaging using near-field spatial processing
Reference-free passive RF imaging using near-field spatial processing
Passive radar imaging has been extensively studied and is based on an illuminator-of-opportunity, such as a wireless access point, providing a signal that scatters from targets and is incident on a receiving node(s) in order to infer information on the range and velocity of the target scene. Such systems universally require reference signal regeneration, from a dedicated channel, that is cross-correlated with the received signal in order to extract the range/Doppler information of the target. This paper presents one of several techniques developed by the authors to achieve passive radar (or RF) imaging without any requirement for extraction of the reference signal. The concept is analogous to optical systems in which various source(s) provide general illumination of a target scene, the scattered signals of which are gathered and processed at an optical sensor in order to reconstruct the image, but without any requirement to extract the illumination (reference) source itself. Such an approach offers numerous practical advantages in achieving imaging from a single passive sensor without the additional requirement of precise, or indeed any, regeneration of the illuminating source: a reference-free approach. This paper presents one such technique based on sampling of the complex signal distribution over an antenna aperture and near-field processing to form a two/three-dimensional reconstruction of the target scene. The fundamental principles of the technique are described along with analysis of basic performance limits. Modelling is presented to illustrate the capability of the technique, which is validated by experimental measurement with a WiFi access point-based prototype system.
near-field spatial processing, passive radar, reference-free WiFi sensing
Brennan, Paul
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Chetty, Kevin
324e29d3-cdf5-4e2b-9b78-5fad57f4e4d0
Li, Wenda
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Vishwakarma, Shelly
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Colone, Fabiola
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Amiri, Amin
eae17393-6303-4acb-8ca1-1c978bc139df
29 July 2024
Brennan, Paul
2c9f231d-8edb-43af-8de8-2ea4b4f71526
Chetty, Kevin
324e29d3-cdf5-4e2b-9b78-5fad57f4e4d0
Li, Wenda
3a3026d2-6265-4fb9-9b4e-22082087909e
Vishwakarma, Shelly
c98f51e0-a07e-4b21-becd-75d7249643ea
Colone, Fabiola
ed0208d0-9d9f-4e31-8025-e93dd8a03835
Amiri, Amin
eae17393-6303-4acb-8ca1-1c978bc139df
Brennan, Paul, Chetty, Kevin, Li, Wenda, Vishwakarma, Shelly, Colone, Fabiola and Amiri, Amin
(2024)
Reference-free passive RF imaging using near-field spatial processing.
In 1st International Conference on Computing, Internet of Things and Microwave Systems, ICCIMS 2024.
IEEE..
(doi:10.1109/ICCIMS61672.2024.10690411).
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Conference or Workshop Item
(Paper)
Abstract
Passive radar imaging has been extensively studied and is based on an illuminator-of-opportunity, such as a wireless access point, providing a signal that scatters from targets and is incident on a receiving node(s) in order to infer information on the range and velocity of the target scene. Such systems universally require reference signal regeneration, from a dedicated channel, that is cross-correlated with the received signal in order to extract the range/Doppler information of the target. This paper presents one of several techniques developed by the authors to achieve passive radar (or RF) imaging without any requirement for extraction of the reference signal. The concept is analogous to optical systems in which various source(s) provide general illumination of a target scene, the scattered signals of which are gathered and processed at an optical sensor in order to reconstruct the image, but without any requirement to extract the illumination (reference) source itself. Such an approach offers numerous practical advantages in achieving imaging from a single passive sensor without the additional requirement of precise, or indeed any, regeneration of the illuminating source: a reference-free approach. This paper presents one such technique based on sampling of the complex signal distribution over an antenna aperture and near-field processing to form a two/three-dimensional reconstruction of the target scene. The fundamental principles of the technique are described along with analysis of basic performance limits. Modelling is presented to illustrate the capability of the technique, which is validated by experimental measurement with a WiFi access point-based prototype system.
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Published date: 29 July 2024
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© 2024 IEEE.
Venue - Dates:
1st International Conference on Computing, Internet of Things and Microwave Systems, ICCIMS 2024, , Gatineau, Canada, 2024-07-29 - 2024-07-31
Keywords:
near-field spatial processing, passive radar, reference-free WiFi sensing
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Local EPrints ID: 507511
URI: http://eprints.soton.ac.uk/id/eprint/507511
PURE UUID: 75b6fd0a-a27b-43ae-9b91-89f637fa0958
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Date deposited: 10 Dec 2025 17:53
Last modified: 11 Dec 2025 03:04
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Contributors
Author:
Paul Brennan
Author:
Kevin Chetty
Author:
Wenda Li
Author:
Shelly Vishwakarma
Author:
Fabiola Colone
Author:
Amin Amiri
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