A novel wearable metamaterial Fractal antenna for wireless applications

M. Ahmed, M. Ahmed, A. A. Shaalan
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引用次数: 3

Abstract

This paper proposes a novel multiband Wearable Fractal antenna which suitable for GPS, WiMax and WiFi (Bluetooth) applications in the same time. This antenna is designed to operate at four resonance frequencies are 1.57, 2.7, 3.4 and 5.3 GHz. The proposed wearable antenna may be attached to life jacket to aid for finding the human body if an accident happened so, the specific absorption ratio (SAR) must be calculated. Therefore anther designed to reduce the SAR value with a spiral metamaterial meandered in the ground plane is introduced. The specific absorption rate (SAR) investigation is carried out on CST2014 Simulator. Maximum SAR value is 0.925 W/Kg which indicates that the wearable antenna are safe for human. The proposed antenna was simulated by CST simulator version 2014 and fabricated by photolithography technique.
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用于无线应用的新型可穿戴超材料分形天线
本文提出了一种适用于GPS、WiMax和WiFi(蓝牙)同时应用的多波段可穿戴分形天线。该天线被设计在1.57、2.7、3.4和5.3 GHz四个谐振频率下工作。所提出的可穿戴天线可以附着在救生衣上,在发生事故时帮助寻找人体,因此必须计算特定吸收比(SAR)。因此,本文介绍了一种利用螺旋状超材料在地平面上弯曲来降低SAR值的花药。在CST2014模拟器上进行了比吸收率(SAR)的研究。最大SAR值为0.925 W/Kg,表明可穿戴天线对人体是安全的。利用2014版CST模拟器对天线进行仿真,并采用光刻技术制作天线。
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