/ Modeling and Characterization of in-Body Antennas

D. Nikolayev
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引用次数: 7

Abstract

Emerging wireless in-body devices pave the way to many breakthroughs in healthcare and clinical research. This technology enables monitoring of physiological parameters while maintaining mobility and freedom of movement of its user. However, establishing reliable communication between an in-body device and external equipment is still a major challenge. The radiation efficiency is constrained by attenuation and reflection losses in tissues. Furthermore, the antennas suffer from impedance detuning issues caused by uncertain electromagnetic properties of body tissues. First, we show that choosing an optimal operating frequency depends on application scenarios and can reduce the losses. Specific designs are then discussed to mitigate the antenna detuning effects due to surrounding biological tissue. Modeling approaches are proposed to lessen the design and optimization complexity. Finally, we present an accurate characterization method of in-body antennas in canonical phantoms using analog fiber optic links.
/体内天线的建模和表征
新兴的无线体内设备为医疗保健和临床研究的许多突破铺平了道路。这项技术可以监测生理参数,同时保持用户的移动性和自由运动。然而,在体内设备和外部设备之间建立可靠的通信仍然是一个主要挑战。辐射效率受组织中的衰减和反射损失的限制。此外,由于人体组织的电磁特性不确定,天线还存在阻抗失谐问题。首先,我们证明了选择一个最佳的工作频率取决于应用场景,可以减少损耗。然后讨论了减轻由于周围生物组织引起的天线失谐效应的具体设计。提出了降低设计和优化复杂性的建模方法。最后,我们提出了一种利用模拟光纤链路精确表征典型幻影中的体内天线的方法。
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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