当前位置: X-MOL 学术Int. J. Inf. Technol. › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
A novel hybrid ultra-wideband radio sensor for primitive stage detection of breast cancer
International Journal of Information Technology Pub Date : 2021-03-24 , DOI: 10.1007/s41870-021-00641-x
Taruna Sharma , Parikshit Vasisht , Munish Vashishath , Ravi Chandra , Rajveer Singh Yaduvanshi , Neela Chattoraj

Ultra Wide Band technology has specifically endowed radio sensor technology in information retrieval of physiological conditions measured among various human organs. Radio sensors possess several characteristics in comparison of the contemporary counterparts. Due to which they are ardent candidate for detection of early stage of breast cancer. In this paper, the antenna structure highlights the hybridisation of Ring Rectangular Dielectric Resonator [RRDR] placed on multiple ring patch, which operates at a frequency band of 5.4–15 GHz. Impedance bandwidth of 94.1% is achieved with the hybridisation of patch and dielectric resonator antenna along with slotted ground structure. A peak gain of 5.7 dBi and high efficiency of 95% is achieved over the entire operating band which presented hybrid antenna is highly suitable for wearable and On-body communication. Breast Phantom is designed and Specific Absorption Rate (SAR) is calculated to check the feasibility of contemplated structure. Acceptable SAR and ringing free impulse response makes this antenna suitable for primitive breast cancer detection as well as Wireless Body Area Networks (WBAN).



中文翻译:

用于乳腺癌原始阶段检测的新型混合超宽带无线电传感器

超宽带技术特别赋予了无线电传感器技术以信息检索各种人体器官之间测得的生理状况的能力。与现代同类传感器相比,无线电传感器具有几个特点。因此,它们是检测早期乳腺癌的热切候选者。在本文中,天线结构突出了放置在多个环形贴片上的环形矩形电介质谐振器[RRDR]的混合,该环形片工作在5.4-15 GHz的频带上。通过将贴片和介质谐振器天线与开槽接地结构混合使用,可以实现94.1%的阻抗带宽。峰值增益为5。在整个工作频段上实现了7 dBi的效率和95%的高效率,这表明混合天线非常适合可穿戴和人体通信。设计了乳房幻影并计算了比吸收率(SAR),以检查预期结构的可行性。可接受的SAR和无振铃脉冲响应使该天线适用于原始乳腺癌检测以及无线人体局域网(WBAN)。

更新日期:2021-03-25
down
wechat
bug