紧凑型四端口多波段圆极化毫米波MIMO天线，用于可穿戴生物技术，5G及其他应用

IF 2.9 4区工程技术 Q1 MULTIDISCIPLINARY SCIENCES

Advanced Theory and Simulations Pub Date : 2025-08-02 DOI:10.1002/adts.202500699

Akhilesh Kumar, Prabina Pattanayak, Ramesh Kumar Verma, Raj Kumar Mistri, Taimoor Khan, Ganesh Prasad, Fazal Ahmed Talukdar

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引用次数: 0

摘要

本研究提出了一种半柔性的、新颖独特的木槌状结构，用于四端口多频段多输入多输出（MIMO）圆极化（CP）天线。该天线适用于毫米波（mm - wave）、Ku - band和5G移动通信频段，可用于生物技术的可穿戴应用。在这项工作中，研究了身体上和身体外的情况。机身外平面天线是为均匀空间条件而设计的。然而，它对身体的表现是在表面上研究的，即胸部和手。本设计在地平面上蚀刻了两条垂直条和两条细水平条，以增强隔振性。附在倒抛物线结构上的辐射椭圆贴片负责CP。建议的天线是在罗杰斯5880 （tm）衬底上制造的，高度为0.787 mm。提议作品的总电尺寸为1.01 1.31 0.047，其中是与最低谐振频率18 GHz相关的波长，而总物理尺寸为17 22 0.787 mm。拟议的工作涵盖16.8-20.84 GHz, 27.10-30.87 GHz和31.1-33.83 GHz（体外）的-10 dB频率范围，以及17-20.01 GHz, 26.2-29.98 GHz和30.01-33.99 GHz（体上）的频率范围。在性能方面，天线在18 GHz、28 GHz和33 GHz工作频率下，实现增益峰值分别为8.55、9.02和9.98 dBi，辐射效率峰值分别为85.5%、77.7%和80.1%。在所有谐振频带内，ECC值均小于0.034，DG值为9.89 dB， CCL值为0.14 bits/sec/Hz。此外，当天线被评估为胸部的体上场景时，所提出的天线获得了出色的分集性能。为了保证人体屏蔽，还讨论了具体吸收率分析以及通信链路余量（上行链路和下行链路）来选择输入功率。模拟结果与实测结果在体内外性能上有较好的一致性。

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Compact Four‐Port Multiband Circularly Polarized mm‐wave MIMO Antenna for Wearable Biotechnologies, 5G, and Beyond Applications

This study presents a semi‐flexible and novel unique mallet‐like structure for four‐port multiband multiple‐input multiple‐output (MIMO) antenna with circular polarization (CP). This antenna is useful in the millimeter‐wave (mm‐wave), Ku‐band, and 5G mobile communications band with wearable applications in bio‐technologies. In this work, the on‐body and off‐body scenarios are studied. The off‐body flat antenna is designed for homogeneous space conditions. However, it's on body performance is studied on the surface, i.e., chest and hand. The presented design etched two vertical strips and two thin horizontal strips from ground plane, which is responsible for enhancing the isolation. The radiating elliptical patch attached to the inverted parabolic structure (mace‐like) is responsible for CP. The suggested antenna is fabricated on a Rogers 5880 (tm) substrate of height () 0.787 mm. The overall electrical dimension of the proposed work is 1.01 1.31 0.047 , where is wavelength associated with the lowest resonating frequency of 18 GHz, while the overall physical dimension is 17 22 0.787 mm. The proposed work covers the –10 dB range of frequencies at 16.8–20.84 GHz, 27.10–30.87 GHz, and 31.1–33.83 GHz (off‐body), and 17–20.01 GHz, 26.2–29.98 GHz, and 30.01–33.99 GHz (on‐body). In terms of performance, the antenna achieved peak values of realized gain 8.55, 9.02, and 9.98 dBi and radiation efficiency of 85.5%, 77.7%, and 80.1% respectively at the operating frequencies 18, 28, and 33 GHz. However, the ECC vlues less than 0.034, DG 9.89 dB, and CCL is 0.14 bits/sec/Hz in all the resonating band of frequencies. Moreover, the proposed antenna attains excellent diversity performances when the antenna is evaluated for the on‐body scenario for the chest. In order to guarantee human shielding, specific absorption rate analysis has also been discussed along with the communication link margins (uplink and downlink) to select the input power. The simulated outcomes have good agreement with measured results for on‐body and off‐body performances.

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来源期刊

Advanced Theory and Simulations Multidisciplinary-Multidisciplinary

CiteScore

5.50

自引率

3.00%

发文量

221

期刊介绍： Advanced Theory and Simulations is an interdisciplinary, international, English-language journal that publishes high-quality scientific results focusing on the development and application of theoretical methods, modeling and simulation approaches in all natural science and medicine areas, including: materials, chemistry, condensed matter physics engineering, energy life science, biology, medicine atmospheric/environmental science, climate science planetary science, astronomy, cosmology method development, numerical methods, statistics