室内环境中的 6G RIS：评估人类使用者和非使用者的暴露变异性

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Antennas and Propagation Pub Date : 2025-01-16 DOI:10.1109/OJAP.2025.3529980

Silvia Gallucci;Martina Benini;Serena Fiocchi;Gabriella Tognola;Marta Parazzini

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引用次数: 0

摘要

当前工作的目的是评估人类用户和非用户在室内场景中的暴露情况，这是由于将集成在6G网络中的新技术，以克服NLOS领域的障碍：可重构智能表面（RIS），这里调整为fr1频段。在单间和办公室两种简化的室内场景下进行暴露评估，模拟使用者身后的RIS，改变RIS的透射角度，计算比吸收率（全身和脑SAR）。从虚拟人口（ViP）的五个人体模型被认为是彼此不同的解剖特征。${\ mathm {SAR}}_{\ mathm {wb}}$和${\ mathm {brain}}$结果在峰值、累积分布函数（CDFs）和空间图方面显示，${\ mathm {SAR}}_{\ mathm {wb}}$值在成人模型中高于儿童模型，而${\ mathm {SAR}}_{\ mathm {brain}}$峰值在儿童模型中更为明显。该研究还显示，在少数情况下，非用户的暴露量可能高于用户。此外，CDFs表明，对于所有考虑的模型，非常低的${\mathrm {SAR}}_{\mathrm {brain}}$和${\mathrm {SAR}}_{\mathrm {wb}}$水平发生的概率非常高。然而，总的来说，所有的结果都远远低于ICNIRP指南的限制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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6G RIS in Indoor Environments: Assessment of Exposure Variability in Human Users and Non-Users

The aim of the present work is to assess the exposure of human users and non-users in indoor scenarios due to novel technology that will be integrated in 6G network in order to overcome the obstacles in NLOS area: Reconfigurable Intelligent Surface (RIS), here tuned in FR1-band. The exposure assessment was conducted in two simplified indoor scenarios, single room and office, where the transmission angle of the RIS were varied mimicking the RIS following the user, and the Specific Absorption Rate (whole-body and brain SAR) were calculated. Five human models from Virtual Population (ViP) were considered differing between each other for anatomical characteristics.

${\mathrm { SAR}}_{\mathrm { wb}}$

and

${\mathrm { SAR}}_{\mathrm { brain}}$

results, studied in terms of peak values, cumulative distribution functions (CDFs) and spatial maps, showed higher

${\mathrm { SAR}}_{\mathrm { wb}}$

values in adults compared to children, while

${\mathrm { SAR}}_{\mathrm { brain}}$

peaks were more pronounced in child models. The study also revealed that there are few cases in which the exposure of non-user could be higher than the user. Moreover, the CDFs demonstrated that, for all the considered models, the probability that very low

${\mathrm { SAR}}_{\mathrm { brain}}$

and

${\mathrm { SAR}}_{\mathrm { wb}}$

levels occur is noticeably high. However, in general all the results are well below the ICNIRP Guidelines limits.

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