Fardeen Mahbub, R. Islam, Shouherdho Banerjee Akash, M. T. Ali, Saiful Islam
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引用次数: 0
摘要
考虑到微波成像(MI)在生物医学领域的众多好处,本文在CST Studio Suite 2019软件中进行了微带贴片天线的模拟,该软件能够进行微波成像(MI)以检测骨骼肌的癌症/肿瘤。天线工作在2.45 GHz (ism频段),最高频率为1.6 GHz,最低频率为3.2 GHz。在这篇论文中,我们制作了一个由皮肤、脂肪和肌肉组成的三层人体幻影,然后在幻影的肌肉部分放置了一个小尺寸(5毫米)的肿瘤。天线被应用在距离幻影5毫米、10毫米和15毫米的三个距离上,以推断天线的性能。将天线应用于受癌症影响的体影上,天线与体影距离分别为5 mm、10 mm和15 mm,其SAR值分别为0.000287 W/kg、0.000229 W/kg和0.0000346 W/kg,谐振频率为2.45 GHz,满足美国联邦通信委员会(FCC)规定的最低SAR要求1.6 W/kg。得到的其他输出参数有回波损耗(S1,1)、驻波比、极辐射、指向性(3D)等。这表明模拟天线是诊断早期骨骼肌癌症/肿瘤的更好选择。
Design and Implementation of a Microstrip Patch Antenna for the Detection of Cancers and Tumors in Skeletal Muscle of the Human Body Using ISM Band
Considering numerous benefits of Microwave Imaging (MI) regarding the Biomedical sector, in this paper, the simulation of a Microstrip Patch Antenna has been done in the CST Studio Suite 2019 Software, which is capable of Microwave Imaging (MI) for detecting Cancer/Tumor of Skeletal Muscle. The Antenna operates at 2.45 GHz (ISM-Band), consisting of a maximum frequency of 1.6 GHz and a minimum frequency of 3.2 GHz, respectively. In this paper, a three-layer Human Body Phantom has been created consisting of Skin, Fat, and Muscle, and then a small size (5 mm) tumor has been placed on the muscle portion of the Phantom. The Antenna was applied at three distances of 5 mm, 10 mm, and 15 mm from the Phantom to deduce the Antenna's performance. The SAR values of 0.000287 W/kg, 0.000229 W/kg, and 0.0000346 W/kg were obtained after applying the Antenna to the Cancer-affected body phantom at the Antenna to the Body Phantom distances of 5 mm, 10 mm, and 15 mm, respectively with a resonant frequency of 2.45 GHz which fulfills the minimum SAR requirement of 1.6 W/kg governed by the Federal Communications Commission (FCC). The other obtained output parameters are Return Loss (S1,1), VSWR, Polar Radiation, Directivity (3D), etc. This demonstrates that the simulated Antenna is a better option for diagnosing the Early-Stage Cancers/Tumors in Skeletal muscles.
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