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Investigation on Insulated Brain-Implanted Antenna for Highly Reliable Biotelemetry Communication in MICS and ISM Bands

机译：用于MICS和ISM频段中高度可靠的生物遥测通信的绝缘脑植入天线的研究

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摘要

We derived a closed-form expression of the maximum power transfer efficiency (MPTE) between a transmitting antenna inside the brain and a receiving antenna outside the head using spherical wave expansion. The derived expression was validated using a FEKO simulation. The properties of the insulator and radiation mode were analyzed in each available medical implant communications service (MICS) and industrial, scientific and medical (ISM) band as a means of increasing the reliability of wireless biotelemetry implementation. Some interesting preceding results in the literature were revisited with the figure-of-merit MPTE. It was also newly found that the effect on MPTE by the physical size and material properties of the insulator in both transverse magnetic (TM) and transverse electric (TE) mode decreases for 2.4 GHz and 5.8 GHz and the loss of the insulator does not have a severe impact on MPTE once the dielectric constant is greater than a certain value. This work can be used as an implanted-antenna design guide for building reliable biotelemetry communication.

机译：我们使用球面波扩展推导了大脑内部发射天线与头部外部接收天线之间最大功率传输效率（MPTE）的闭合形式。导出的表达式使用FEKO仿真进行了验证。在每个可用的医疗植入物通信服务（MICS）和工业，科学和医学（ISM）频段中，都对绝缘体的特性和辐射模式进行了分析，以此来提高无线生物遥测技术的可靠性。品质因数图MPTE重新回顾了文献中一些有趣的先前结果。最近还发现，在2.4 GHz和5.8 GHz下，横向磁（TM）模式和横向电（TE）模式下，绝缘子的物理尺寸和材料特性对MPTE的影响减小，并且绝缘子的损耗没有介电常数大于一定值时，会对MPTE产生严重影响。这项工作可用作构建可靠的生物遥测通信的植入式天线设计指南。

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期刊名称 Sensors (Basel Switzerland)
作者
Geonyeong Shin; Ick-Jae Yoon;
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作者单位

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年(卷),期 2020(20),1
年度 2020
页码 -1
总页数 15
原文格式 PDF
正文语种
中图分类
关键词
spherical wave; implanted antenna; small antenna coupling; biotelemetry;

机译：球面波;植入天线;小天线耦合;生物遥测;

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专利

1. Compact implantable antenna design for MICS and ISM band biotelemetry applications [J] . Usluer Merve, Cetindere Besra, Basaran Siddik Cumhur Microwave and optical technology letters . 2020,第4期

机译：用于MICS和ISM频段BiotEleMetry应用的紧凑型植入天线设计
2. Compact Bioimplantable MICS and ISM Band Antenna Design for Wireless Biotelemetry Applications [J] . M. Palandoken Radioengineering . 2017,第4期

机译：用于无线生物遥测应用的紧凑型可生物植入MICS和ISM频段天线设计
3. Compact Bioimplantable MICS and ISM Band Antenna Design for Wireless Biotelemetry Applications [J] . M. Palandoken Radioengineering . 2017,第4期

机译：用于无线生物遥测应用的紧凑型可生物植入MICS和ISM频段天线设计
4. Wearable textile microstrip patch antenna for multiple ISM band communications [C] . S. J. Chen, T. Kaufmann, C. Fumeaux IEEE International Symposium on Antennas and Propagation . 2013

机译：用于多个ISM频段通信的可穿戴纺织微带贴片天线
5. Dual Band Resonant Slot Aperture Coupled Microstip Antenna for 5th Generation Wireless Communication Systems [D] . Kearley, Colin Raymond. 2018

机译：用于第5代无线通信系统的双频带谐振槽孔耦合微骨天线
6. Bend and Moisture Effects on the Performance of a U-Shaped Slotted Wearable Antenna for Off-Body Communications in an Industrial Scientific Medical (ISM) 2.4 GHz band [O] . Rocio Sanchez-Montero, Pablo-Luis Lopez-Espi, Cristina Alen-Cordero, 2019

机译：弯曲和水分对工业科学医学（ISM）2.4 GHz频段下用于人体通信的U形缝隙可穿戴天线性能的影响
7. Investigation on Insulated, Brain-Implanted Antenna for Highly Reliable Biotelemetry Communication in MICS and ISM Bands [O] . Geonyeong Shin, Ick-Jae Yoon 2019

机译：绝缘，脑植入天线，用于麦克风和ISM频段高度可靠的生物再次通信

Investigation on Insulated Brain-Implanted Antenna for Highly Reliable Biotelemetry Communication in MICS and ISM Bands

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