Human Exposure Assessment to Wearable Antennas: Effect of Position and Interindividual Anatomical Variability

Gallucci, Silvia; Bonato, Marta; Chiaramello, Emma; Fiocchi, Serena; Tognola, Gabriella; Parazzini, Marta

doi:10.3390/ijerph19105877

Cited by 8 publications

(4 citation statements)

References 26 publications

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“…When the human body is exposed to EM radiation, one result is elevated body temperature [ 46 ]. Regulatory standards are defined to ensure that this exposure remains within safe limits.…”

Section: Resultsmentioning

confidence: 99%

A High Performance All-Textile Wearable Antenna for Wristband Application

et al. 2023

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A compact, conformal, all-textile wearable antenna is proposed in this paper for the 2.45 GHz ISM (Industrial, Scientific and Medical) band. The integrated design consists of a monopole radiator backed by a 2 × 1 Electromagnetic Band Gap (EBG) array, resulting in a small form factor suitable for wristband applications. An EBG unit cell is optimized to work in the desired operating band, the results of which are further explored to achieve bandwidth maximization via floating EBG ground. A monopole radiator is made to work in association with the EBG layer to produce the resonance in the ISM band with plausible radiation characteristics. The fabricated design is tested for free space performance analysis and subjected to human body loading. The proposed antenna design achieves bandwidth of 2.39 GHz to 2.54 GHz with a compact footprint of 35.4 × 82.4 mm2. The experimental investigations reveal that the reported design adequately retains its performance while operating in close proximity to human beings. The presented Specific Absorption Rate (SAR) analysis reveals 0.297 W/kg calculated at 0.5 W input power, which certifies that the proposed antenna is safe for use in wearable devices.

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“…When the human body is exposed to EM radiation, one result is elevated body temperature [ 46 ]. Regulatory standards are defined to ensure that this exposure remains within safe limits.…”

Section: Resultsmentioning

confidence: 99%

A High Performance All-Textile Wearable Antenna for Wristband Application

et al. 2023

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“…This implies that antenna direction is an important factor in determining wireless communication device performance. Moreover, additional design challenges such as bending and radiation can be mitigated to a certain degree by optimal antenna placement on or near the human body; the wearable antenna bending effect is an important design aspect [69], [70]. The effects of changes in the distance between the human body and communication devices should be negligible for wearable devices [71].…”

Section: A Specific Absorption Rate (Sar) and On-body Measurementmentioning

confidence: 99%

Recent Advancement of Wearable Reconfigurable Antenna Technologies: A Review

et al. 2022

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Wireless Body Area Network (WBAN) technology is gaining popularity in personal communication due to the expanding improvement in wireless technology. Wearable antennas are utilized in various WBAN applications including personal healthcare, entertainment, military, and many more due to their attractive characteristics and the potential for integrating lightweight, compact, low-cost, and adaptable wireless communications. A wearable reconfigurable antenna will allow a single antenna to operate at multiple resonant frequencies, radiation, polarization or hybrid between them, by using single or multiple active switching devices for signal transmission and reception in different parts of human body, rather than using multiple antennas. Over the years, several review papers were reported on wearable antennas which discussed the requirements and issues of wearable antennas in terms of their design, fabrication, and measurement. Nowadays, WBAN technology employs a single wearable reconfigurable antenna to perform multiple functions in different parts of human body. Recently, a significant amount of work has been carried out in the area of wearable reconfigurable antennas for WBAN applications. This paper presents a comprehensive review of the requirements and analysis needed for wearable reconfigurable antennas such as Specific Absorption Rate (SAR) for on-body analysis, investigation of the antennas in bending conditions, reconfigurable techniques and reconfigurable performance metrics.

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“…In study [7], the wearable antenna releases RF-EMFs from human exposure. A wearable antenna with a frequency set at 2.5GHz was evaluated in an actual configuration, and compared with a male and female model.…”

Section: R Vinothkannamentioning

confidence: 99%

A Survey – Wearable Antenna Techniques and its Applications

Vinothkanna¹

2022

RRRJ

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Smart Antenna is an array of antennas which uses the smart signal processing algorithms to track and locate the client device using the direction of arrival of a signal. Smart Wearable Antennas are designed to function while being worn. Wearable antennas are used within the context of Wireless Body Area Networks. The wearable antenna is high in efficiency, miniature in size, and simple in structure, and is implemented with electrical performance and polarization effects, which helps in healthcare, medical and military applications, smart glasses, sensor devices in sports, etc. This research study reviews different wearable antenna technologies such as wearable textile antenna, microstrip antenna and wearable antenna array. Furthermore, the integrated different next generation antennas are also discussed.

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Human Exposure Assessment to Wearable Antennas: Effect of Position and Interindividual Anatomical Variability

Cited by 8 publications

References 26 publications

A High Performance All-Textile Wearable Antenna for Wristband Application

A High Performance All-Textile Wearable Antenna for Wristband Application

Recent Advancement of Wearable Reconfigurable Antenna Technologies: A Review

A Survey – Wearable Antenna Techniques and its Applications

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