Wearable Metasurface-Enabled Quasi-Yagi Antenna for UHF RFID Reader With End-Fire Radiation Along the Forearm

Ahmed, Shahbaz; Le, Duc Dung; Sydänheimo, Lauri; Ukkonen, Leena; Björninen, Toni

doi:10.1109/access.2021.3078239

Cited by 11 publications

(5 citation statements)

References 41 publications

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“…Figure 4 presents in detail the fingertip tag. For UHF RFID reader, the Quasi-Yagi antenna is presented in [38]. It is a wearable device and can be used in wireless sensing (see Fig.…”

Section: Optimization Methods and Rfid Designsmentioning

confidence: 99%

A Prospective Look on Optimization Methods For RFID Systems: Requirements, Challenges and Implementation Aspects

Kouhalvandi

2022

Balkan Journal of Electrical and Computer Engineering

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The radio frequency identification (RFID) is a configuration of wireless communication that uses radio frequency (RF) waves for following up and recognizing data. The RFID system includes important parts as antenna and integrated circuit (IC) for radiating and storing data, respectively. Hence, high performance antenna and IC circuits must be designed for assembling the energy from the radio waves and feeding the RFID chip. One of the important circuit/block in the IC part is the amplifier where the antenna is sensing the radiated output power. For this case, it is substantially important to design high performance antenna and amplifier where the specifications of these circuits must be optimized in a professional way. In this paper, we collect the recently published optimization methods that are employed for designing antenna and RF/analog-based amplifiers. Any researcher by referring to these algorithms can access and find the solutions for their problems, straightforwardly.

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“…Figure 4 presents in detail the fingertip tag. For UHF RFID reader, the Quasi-Yagi antenna is presented in [38]. It is a wearable device and can be used in wireless sensing (see Fig.…”

Section: Optimization Methods and Rfid Designsmentioning

confidence: 99%

A Prospective Look on Optimization Methods For RFID Systems: Requirements, Challenges and Implementation Aspects

Kouhalvandi

2022

Balkan Journal of Electrical and Computer Engineering

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“…Year SAR (W/Kg) (1 g) SAR (W/K [46] 2020 (sim) 0.35 0.2 [47] 2020 (sim) 1.22 - [48] 2021 (sim) 0.29/0.2/0.22 0.13/0.0 [49] 2021 (sim) 0.9 - [50] 2022 (sim) 0.37 0.2 [51] 2020 (sim) 5.95 - [52] 2021 (sim) 0.25 0.5 [53] 2021 (sim) 36.3 44 [54] 2019 (sim) 0.3 - [55] 2019 (sim) 0.6 - [56] 2020 (sim) 0.84 - [57] 2019 (sim) -1. [58] 2021 (sim) 0.9 -…”

Section: Refmentioning

confidence: 99%

Fabric–Metal Barrier for Low Specific Absorption Rate and Wide-Band Felt Substrate Antenna for Medical and 5G Applications

et al. 2023

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This study proposed the dimensions of 55 mm × 34 mm × 1 mm for wearable antenna; the copper Y-slot patch and copper partial ground are attached to a felt substrate. The partial ground has the higher impact in antenna gain enhancement compared with the full ground, making it the most suitable candidate for wearable applications and suitable for embedding in fabrics for use in medical applications. In addition, the proposed antenna design combined a fabric–metal barrier operated at 2.4 GHz 65.4% with a low specific absorption rate (SAR) of 0.01 watts per kilogramme (W/kg) and 0.006 W/kg per 10 g and a gain of 6.48 dBi. The proposed antenna has an omnidirectional radiation pattern. The two-layer barrier is designed to achieve high electromagnetic (EM) absorption and reduce the antenna’s absorption coefficient (SAR) for safe use in applications involving human activities. Simulation and measurement results on the arm and the head of the human body indicated that the antenna has excellent performance. In addition, the measurement results agreed well with the simulation results, making the proposed wearable antenna reliable for medical and 5G applications.

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“…In order to reduce the interference between communication systems, an antenna with high gain and good direction is urgently needed [14,15]. Among them, the Yagi antenna is particularly prominent on account of its advantages [16], such as its light weight and simple structure [17][18][19][20]. However, it usually has a narrow operating band which cannot meet the multi-frequency operational requirements of wireless communication.…”

Section: Introductionmentioning

confidence: 99%

Stereoscopic UWB Yagi–Uda Antenna with Stable Gain by Metamaterial for Vehicular 5G Communication

Shen

Dou

et al. 2023

Sensors

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In this paper, a stereoscopic ultra-wideband (UWB) Yagi–Uda (SUY) antenna with stable gain by near-zero-index metamaterial (NZIM) has been proposed for vehicular 5G communication. The proposed antenna consists of magneto-electric (ME) dipole structure and coaxial feed patch antenna. The combination of patch antenna and ME structure allows the proposed antenna can work as a Yagi–Uda antenna, which enhances its gain and bandwidth. NZIM removes a pair of C-notches on the surface of the ME structure to make it absorb energy, which results in two radiation nulls on both sides of the gain passband. At the same time, the bandwidth can be enhanced effectively. In order to further improve the stable gain, impedance matching is achieved by removing the patch diagonally; thus, it is able to tune the antenna gain of the suppression boundary and open the possibility to reach the most important characteristic: a very stable gain in a wide frequency range. The SUY antenna is fabricated and measured, which has a measured −10 dBi impedance bandwidth of approximately 40% (3.5–5.5 GHz). Within it, the peak gain of the antenna reaches 8.5 dBi, and the flat in-band gain has a ripple lower than 0.5 dBi.

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Wearable Metasurface-Enabled Quasi-Yagi Antenna for UHF RFID Reader With End-Fire Radiation Along the Forearm

Cited by 11 publications

References 41 publications

A Prospective Look on Optimization Methods For RFID Systems: Requirements, Challenges and Implementation Aspects

A Prospective Look on Optimization Methods For RFID Systems: Requirements, Challenges and Implementation Aspects

Fabric–Metal Barrier for Low Specific Absorption Rate and Wide-Band Felt Substrate Antenna for Medical and 5G Applications

Stereoscopic UWB Yagi–Uda Antenna with Stable Gain by Metamaterial for Vehicular 5G Communication

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