Device-Free localization is a promising technique for indoor positioning in infrastructures, as it eliminates the reliance on custom and costly hardware. In this study, we present the development of a compact and cost-effective bistatic radar sensor that utilizes DW3000 UWB transceivers. The effectiveness of the sensor was evaluated through comprehensive assessments of various channels, with particular emphasis on channel 9, employing Channel Impulse Response analysis. To enhance the accuracy of time delay estimation for multipath components scattered by moving targets, we developed a weighting function. The experimental results demonstrate the potential of device-free localization sensors as a viable solution for indoor positioning systems, offering enhanced accessibility and cost reduction compared to traditional approaches.
UWB bistatic radar sensor: across channels evaluation / Santoro, Luca; Nardello, Matteo; Fontanelli, Daniele; Brunelli, Davide. - In: IEEE SENSORS LETTERS. - ISSN 2475-1472. - 2023, 7:10(2023), p. 6066064. [10.1109/LSENS.2023.3307087]
UWB bistatic radar sensor: across channels evaluation
Santoro, LucaPrimo
;Nardello, MatteoSecondo
;Fontanelli, DanielePenultimo
;Brunelli, DavideUltimo
2023-01-01
Abstract
Device-Free localization is a promising technique for indoor positioning in infrastructures, as it eliminates the reliance on custom and costly hardware. In this study, we present the development of a compact and cost-effective bistatic radar sensor that utilizes DW3000 UWB transceivers. The effectiveness of the sensor was evaluated through comprehensive assessments of various channels, with particular emphasis on channel 9, employing Channel Impulse Response analysis. To enhance the accuracy of time delay estimation for multipath components scattered by moving targets, we developed a weighting function. The experimental results demonstrate the potential of device-free localization sensors as a viable solution for indoor positioning systems, offering enhanced accessibility and cost reduction compared to traditional approaches.| File | Dimensione | Formato | |
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UWB_bistatic_radar_sensor_across_channels_evaluation.pdf
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