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Toward the Optimal Antenna-Based Wireless Sensing Strategy: An Ice Sensing Case Study

Mahmoud Wagih, Junjie Shi

2022IEEE Open Journal of Antennas and Propagation24 citationsDOIOpen Access PDF

Abstract

Remote ice detection has emerged as an application of Radio Frequency (RF) sensors. While antenna-based “RFID” sensing can detect various measurands, antenna-based sensors are not currently designed based on a systematic methodology, and in most cases may have a low sensitivity requiring specialist hardware or broadband interrogation signals, incompatible with spectrum regulations. Here, we develop a systematic methodology for designing an antenna-based sensor, applicable to measurands inducing a dielectric change in the near-field of the antenna. The proposed methodology is applied to designing printable antennas as highly-sensitive sensors for detecting and measuring the thickness of ice, demonstrating best-in-class sensory response compared to more complex antenna designs. Antenna design is investigated systematically for wireless interrogation in the 2.4 GHz band, where it is found that a loop antenna outperforms a dipole owing to its more distributed capacitance. The antenna’s realized gain was identified as the optimum parameter-under-test, with “positive” sensing proposed as a method of improving linearity and immunity to interference. The developed loop antenna sensor exhibits resilience to interference and applicability to different real-world deployment environments, demonstrated through over 80% average ice thickness measurement accuracy and at least 5 dB real-time sensitivity to ice deposition.

Topics & Concepts

Antenna (radio)Remote sensingComputer scienceWirelessEnvironmental scienceGeologyTelecommunicationsEnergy Harvesting in Wireless NetworksAntenna Design and AnalysisIcing and De-icing Technologies
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