Wideband Fabric Antenna for Ultra Wideband Applications using for Medical Applications

Pub Date : 2022-12-06 DOI:10.14429/dsj.72.17919

S. Bhavani, T. Shanmuganantham

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Abstract

Traditional cancer detection imaging techniques suffer high costs, high false negatives, high false positives,and pain. The microwave imaging techniques overcome the limitations, which depend primarily on antenna design. If an antenna is wearable and implantable, the imaging system gives better results with less pain and cost. A wide band fabric antenna that operates at the ultra-wideband frequency with a low specific absorption rate (SAR) on breast phantom is verified. The proposed design has Jeans material as a substrate and the copper patch as a radiating element. The patch is designed in a circular shape with an M-type slot to suppress the spurious modes. The designed antenna model is commonly used for monitoring microwave imaging and has dimensions of 28X30X1.6 mm3. The proposed antenna design covers 2.3-8 GHz frequency with a broadside radiation pattern. The gain over the operating frequency is about 2.3-4.5 dB, and the efficiency is 55 %–79 %. The antenna model was designed and simulated in CST microwave studio. The performance of an antenna is tested on breast cancer to detect the presence of tumor cells in the breast. The antenna analysis on the phantom was done by considering the tumor location and corresponding results are presented. By varying the sizes of the tumor the antenna performance is analysed. The simulated SAR values of the proposed antenna design on breast phantom are under the limits of FCC.

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用于医疗应用的超宽带应用的宽带织物天线

传统的癌症检测成像技术存在成本高、假阴性、假阳性高、疼痛等问题。微波成像技术克服了主要取决于天线设计的限制。如果天线是可穿戴和可植入的，那么成像系统就能以更少的痛苦和成本获得更好的效果。验证了一种工作在乳房模体上的低比吸收率(SAR)超宽带频率的宽带织物天线。提出的设计以Jeans材料作为衬底，铜片作为辐射元件。为了抑制杂散模式，该贴片被设计成圆形，并带有m型插槽。所设计的天线模型是常用的微波成像监测天线，尺寸为28X30X1.6 mm3。提出的天线设计覆盖2.3- 8ghz频率，具有宽侧辐射方向图。工作频率上的增益约为2.3-4.5 dB，效率为55% - 79%。在CST微波工作室设计了天线模型并进行了仿真。在乳腺癌上测试天线的性能，以检测乳房中肿瘤细胞的存在。在考虑肿瘤位置的情况下，对假体进行了天线分析，并给出了相应的结果。通过改变肿瘤的大小，分析了天线的性能。所提天线在乳房模体上的模拟SAR值均在FCC限制范围内。

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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