Measurement Analysis of Specific Absorption Rate in Human Body Exposed to a Base Station Antenna by Using Finite Difference Time Domain Techniques

The system analysis of specific absorption rate(SAR)in human body ex­posed to a base station antenna by using finite difference time domain tech­niques was presented in this research works.The objectives of this work are to evaluate the knowledge and awareness about SAR among human body and mobile base station.The paper investigates the electromagnetic wave absorption inside a human body.The human body has been identified us­ing dataset based on 2D object considering different electrical parameters.The SAR convinced inside the human body model exposed to a radiating base station antenna(BSA)has been considered for multiple numbers of carrier frequencies and input power of 20 W/carrier at GSM 900 band.The distance(R)of human body from BSA is varied in the range of 0.1 m to 5.0 m.For the number of carrier frequency equal to one and R=0.1 m,the concentrated value of whole-body average SAR obtained by FDTD technique is found to be 0.68 W/kg which decreases either with increase of R or decrease of number of carrier frequencies.Safety distance for general public is found to be 1.5 m for number of carrier frequencies equal to one.The performance accuracy of this analysis meets the high level condition by comparing with the relevant system development in recent time.

太空电站充电时基于真实手臂模型的SAR分析

空间太阳能电站所提供的将是高功率的电磁能量,在执行无线供电的过程中,将会在被供电设备上再次激励起不同频率的电磁波,对人体健康产生一定的威胁。对于低频的电磁波可以将人体整体等效为一个简易模型,分析电磁波对人体健康的影响。但是,当频率逐渐升高,其波长将和人体的局部组织尺寸可比拟,此时必须采用真实的人体模型才能更精确地分析电磁波对人体的影响。为此,文章研究5.8GHz频率下,基于真实手臂模型的比吸收率。利用平面波照射真实手臂模型,分析手臂表面以及透射到各个关键局部区域体积内的SAR值,可为高频率情况下电磁波对人体健康的影响提供一定的参考。

THE RELATIONSHIP BETWEEN THE EM ENERGY ABSORPTION OF HUMAN BODY AND THE INCIDENT DIRECTION AND POLARIZATION OF PLANE WAVE

The problems of EM energy absorption of human body irradiated by plane wave arediscussed by the Finite-Difference Time-Domain(FD-TD)method.The local Specific AbsorptionRates(SARs),the whole-body average SARs and the layer average SARs for the inhomogeneousblock model of human body with different incident direction and different polarization of theincident waves are calculated.The results show that the appearance of maximum EM energyabsorption is not always at the situation of the front incidence and the local SARs are moreimportant for the interaction of the EM fields with human body.All results provide more infor-mation about the electromagnetic dosimetry for human body.

Confluence of Encryption,Absorption and Sensation-Well Almost Nearly

In this issue,manuscripts have been published on a wide variety of topics,which demonstrates the large scope of Semiconductor Science&Information Devices.Even the authors are from diverse geographical areas!We con­tinue to encourage such submissions on varied topics.In fact,much of the engineering today is multi-disciplinary involving close cooperation&collaboration among many fields&specializations.

5G手机天线作用于人体头部的SAR分析

研究一种工作在4种频段下的5G手机天线作用于成人头部所产生的电磁辐射。在COMSOL仿真软件中建立内嵌天线的手机模型以及三层球形模型,代表成年人的头皮、颅骨和大脑。模拟计算人体头部大脑层电磁辐射的比吸收率(Specific Absorption Ratio,SAR)。仿真结果表明,当天线工作频率为900 MHz、手机离头部距离为5 mm时,成年人大脑层SAR值最大,为0.222 W·kg^(-1)。所有仿真计算结果所得SAR值均低于国际非电离辐射防护委员会(International Commission on Non-Ionizing Radiation Protection,ICNIRP)的规定限值。

加载人工磁导体的双频柔性可穿戴天线

该文研究了一种加载人工磁导体(AMC)的双频柔性可穿戴天线,天线的谐振频率为3.5 GHz和5.8 GHz。天线由双频单极子天线和4×4阵列的双频人工磁导体构成,均采用柔性材料作为介质基板。天线尺寸为0.70λ_(0)×0.70λ_(0)×0.05λ_(0)(λ_(0)为3.5 GHz时的自由空间波长)。人工磁导体的介质基板为3层结构,增加了相位响应,使用双环开槽结构延长电流路径长度,实现了双频的宽带同相位反射。人工磁导体的引入有效降低天线的背向辐射,从而降低比吸收率(SAR),同时提高天线的增益。仿真结果表明,该天线性能受结构变形和人体载荷的影响较小。在工作频段内天线的阻抗带宽分别为7.5%和4.0%;峰值增益分别为7.86 dBi和8.06 dBi。在3.5 GHz和5.8 GHz的比吸收率分别为0.2 W/kg和0.06 W/kg,均小于美国联邦通信委员会标准。为了验证仿真结果,对天线进行加工测试,实测与仿真结果基本一致。实验结果表明,加载人工磁导体的天线具有良好的鲁棒性和增益以及较低的比吸收率,适用于可穿戴无线通信系统。

Superparamagnetic CoFe2O4@Au with High Specific Absorption Rate and Intrinsic Loss Power for Magnetic Fluid Hyperthermia Applications

CoFe2O4 nanoparticles(NPs)and surface modified with gold(Au)have been synthesized by a thermal decomposition method.The obtained NPs and formation of CoFe2O4@Au core–shell(CS)were confirmed by characterizing their structural and optical properties using X-ray powder diffraction(XRD)patterns,Fourier transform infrared spectroscopy,Raman spectroscopy,UV–Visible and photoluminescence studies.Morphological and compositional studies were carried out using high-resolution transmission electron microscopy and energy-dispersive X-ray spectroscopy,while the magnetic properties were determined using alternating gradient magnetometer and Mossbauer to define the magneto-structural effects of shell formation on the core NPs.Induction heating properties of CoFe2O4 and CoFe2O4@Au CS magnetic nanoparticles(MNPs)have been investigated and correlated with magneto-structural properties.Specific absorption rate and intrinsic loss power were calculated for these MNPs within the human tolerable range of frequency and amplitude,suggesting their potential in magnetic fluid hyperthermia therapy for possible cancer treatment.

Influence upon specific absorption rate distribution at deep area by inserting an inner electrode during capacitive radio-frequency hyperthermia

In recent years, hyperthermia holds much attraction in the clinic practices, especially in the tumor treatment. In hyperthermia, the key to get much better therapeutic effects ts how to heat the tumor efficiently, that means how to keep the tumor in high temperature range (41—45℃), and avoid any damage of the surrounding normal tissues. Therefore, the first requirement for hyperthermic system is to produce an ideal heating field of which the main part can overcover the region for therapy.

水冷式微波偶极子辐射器在生物介质中的SAR分布计算

本文从电磁场理论模型出发，分析地腔内水冷式微波偶极子辐射器在生物介质中的近场辐射特性，计算得到有水冷时的比吸收率（ＳＡＲ）分布形态．与无水冷时的ＳＡＲ分布比较表明，水冷可改善热区分布，增加治疗深度．该结果与工程经验和临床实际基本相符．

高场胎儿磁共振成像SAR分布及B_1场均匀性研究

在确实需要的前提下,孕期满3个月的孕妇可行MRI检查,相关研究已经证实1.5 T胎儿磁共振成像(MRI)检查相对安全,但3 T胎儿MRI检查的安全性相关研究还很不够,随着3 T MRI设备在临床应用数量快速增加,加强相关研究非常有必要。为了分析3 T胎儿MRI检查的安全问题和成像质量,根据医学图像和国际标准建立了孕妇盆腔电磁模型,参照临床常规,分别在1.5 T和3 T鸟笼发射线圈激励下,采用时域有限差分法对用于衡量MRI安全问题的特定能量吸收率(SAR)和影响图像质量的射频B1场进行数值计算和分析。数值结果表明,3 T下孕妇盆腔各组织SAR的平均值和局部最大值分别比1.5T最多提高了2.79倍和3.96倍。特别地,3 T下皮肤、羊水SAR的局部最大值超出了安全阈值;3 T下过子宫颈、子宫体和子宫底的3个横断面上子宫区域内B1场的均匀性比1.5T分别降低了19%,25%和21%,而且3 T下子宫内B1场均匀性低于67%。结果表明,过高的局部SAR值和B1场的不均匀性将成为3 T磁共振应用于胎儿成像的主要限制因素。

高场磁共振射频能量吸收率SAR的研究

目的通过对SAR影响参数研究,计算10秒SAR,指导MR扫描顺利进行。方法采用GE公司HD3T扫描仪,头颅8通道线圈,扫描序列为T2-FSE,改变体重、TR、层数等参数对水模进行扫描,观察SAR的改变。结果SAR与体重和TR有关,而与扫描的层数无关,SAR是RF、B0、体重和TR的函数。根据体重与10秒SAR的关系曲线,通过MATLAB,进行一个曲线拟合,得出10 s SAR与体重的关系方程式:SAR=((-5.96E-09)X4-(2.08E-06)X3+0.0005681X2-0.04531X+1.638)*Peak_SAR.结论SAR是RF脉冲序列、B0、体重和TR的函数,我们所得到的MATLAB4次方程式,只要输入病人体重和Peak_SAR就能直接得到10 s SAR,就可以估计扫描是否暂停,以及暂停时间。

利用FDTD法计算人体对手机辐射的比吸收率(SAR)

利用FDTD法计算人头部对手机电磁辐射的比吸收率.首先建立手机辐射的电磁模型和人体头部非均匀块状电磁模型,然后计算手机距人体头部不同距离时比吸收率在人头部内的分布,并根据国家的电磁安全标准对计算的结果进行了分析.

墨鱼骨结构的力学行为及其应变率效应

墨鱼骨是一种墨鱼内部产生的生物矿化壳,通过调节壳内的气液比从而实现墨鱼的深浅浮动,同时满足轻质和高刚度的力学特性,使墨鱼能够很好地适应深海环境,所以墨鱼骨是一种典型的高比刚度的多孔材料。为探究墨鱼骨结构的力学性能,通过Instron材料试验机和分离式Hopkinson压杆实验装置,对墨鱼骨在不同加载应变率下的力学行为进行研究。研究结果表明,墨鱼骨在准静态加载下,其应力-应变曲线呈现典型的三阶段变化模式,即弹性段、平台段和压实段,具有很好地吸能缓冲作用;随着加载应变率的提高,墨鱼骨的初始压溃应力和平台应力也随之增加,表明墨鱼骨材料对加载应变率存在很强的敏感性。进一步分析不同生长方向的墨鱼骨在准静态压缩下的力学行为,结果表明随着生长方向的增加,墨鱼骨结构的刚度和吸能性能都得到了弱化,从而揭示了墨鱼骨材料压缩行为的各项异性。

微波暴露人体比吸收率(SAR)的分布研究

本文采用时域有限差分法和仿真人体电磁模型,计算并比较了E、H二种极化方向和前向、后向、左侧向、右侧向四种照射几何条件下,3GHz微波人体暴露的全身平均比吸收率(SAR)、器官平均SAR和最大峰值SAR。结果表明,H极化、前向照射几何条件下人体的平均SAR较高,其中眼睛和睾丸的器官剂量最高。上述结果为3GHz微波生物效应的实验设计提供了科学依据。

Calculation of Electromagnetic Field and SAR Dis- tributions of Two Antenna Structures for Bone Tu- mors Microwave Hyperthermia

Objective: To investigate the electromagnetic field and specific absorptionrate (SAR) distribution of different structure applicators with different depths for treating bonetumors using microwave hyperthermia. Methods: The finite element method (FEM) was used to calculate,electromagnetic field and SAR distribution. Two different structure applicators were simulated. Theone is simple coaxial antenna, which has been successfully used in clinic treating bone tumors inTangdu hospital of the Forth Military Medical University several years. It was formed by a coaxialcable peeled off the out copper at end. The other applicator was coaxial- slot antenna, which waswidely used in microwave hyperthermia. The applicator inserted into the cylindrical bone withdifferent depths, and worked at the frequency of 2 450 MHz. Results: The electric field and SARgenerated by the simple coaxial applicator were mainly concentrated out the tissues, and were notuniform in the tissues, while the coaxial- slot applicator well transmits the electric field and SARinto the tissues, and can easily treat different position by adjusting the slat position.Conclusion: The results calculated by EFM, were well accordant with the experimental and clinicalresulls, and will be important for improving the clinical effects of microwave hyperthermia.

用于SAR估计的基于U-Net网络的快速膝关节模型重建

膝关节高场磁共振成像(MRI)时,射频功率沉积(SAR)是一个关键的安全指标.目前对于局部SAR的准确估计只能通过电磁仿真实现,这就要求得到每一个个体的膝关节模型.本文提出一种针对低场磁共振图像的基于卷积神经网络的分割方法,以实现膝关节磁共振图像的快速重建.数据集来自于矢位T1加权自旋回波图像,将膝关节组织按照"肌肉-脂肪-骨骼"模型进行简化,除脂肪与骨骼之外的其他组织归类为肌肉.采用一种全卷积的神经网络,即U-Net进行逐层的图像分割,卷积层数为4,训练采用交叉熵函数.本文对图像的自动分割结果与手动标注结果进行了定量的比较.此外,采用3 T正交鸟笼线圈进行了SAR仿真,结果验证了组织简化对于SAR估计的可行性,并且所提方法构建的模型可以得到较为精准的局部SAR分布.

加载电磁带隙EBG反射板的低电磁辐射比吸收率SAR天线

如何减小移动通信中移动终端电磁信号对人体脑部的影响成为公众关注的焦点之一,电磁带隙(EBG)结构在其禁带内具有阻抗高、反射波与入射波位相相同的特点,可以抑制印刷线路板的表面波改善天线辐射性能,减少进入脑部的电磁信号。在1.8 GHz频段,对加载EBG结构的反射板的天线系统进行了仿真,结果表明,与未加载EBG的天线系统相比,加载EBG结构的偶极天线系统不仅可以保证天线的辐射增益,同时人体脑部电磁波的比吸收率大大降低,加载EBG反射板可以有效抑制人体脑部的电磁场强度;由于天线与反射板的互相耦合,天线的尺度与未加载EBG结构的天线相比尺度变小,同位相反射偶极天线与EBG距离很近,实现了低轮廓天线。

三维阻抗法计算人体头部SAR分布的研究

在建立虚拟人体脑部模型的基础上,推导了阻抗法的计算公式,计算出了人脑的SAR。数据通过Matlab软件进行图像处理,得到了在准静态磁场作用下人脑的三维SAR分布。将计算结果与有限差分方法的计算结果进行了比较,在计算小物体时阻抗法具有简单、无需严格设置边界条件和计算速度快等优点。

用于微波热疗的小型化开缝微带贴片和金属腔复合天线

传统的治疗癌症方法往往会产生严重的副作用。作为一种微创、高效、低毒的绿色治疗方法,近年来微波热疗受到越来越多人的青睐。本研究的重点是设计和评估用于热疗的工作频率为2450 MHz的微型开缝贴片天线。天线贴片呈八角形,包含4个对称槽,以减小尺寸并改善定向辐射。天线与组织之间增加了一个开放式金属腔,以保持预设距离,防止贴片直接接触皮肤,实现更好的阻抗匹配,减少对周围区域的能量辐射。根据比吸收率(SAR)、穿透深度(PD)和有效场强(EFS)对天线的性能进行评估,加工制作了天线并在猪肉组织中进行了测试,测量结果与模拟结果非常吻合。

基于SAR单针反馈的2450 MHz微波消融温度场仿真研究

比吸收率(SAR)的精确表征对于恒功率微波消融的温度场仿真至关重要.提出了2 450 MHz微波消融中SAR的单针反馈方法以及基于SAR反馈形式的温度场仿真技术.在具体实施中,首先利用离体猪肝实验获得SAR的空间分布函数,然后通过单针实测结果获得SAR随温度变化的精确表征形式,最后基于此SAR形式进行温度场仿真以验证温度预测精度.实验对比结果表明,仿真结果与实测温度具有较高的一致性,验证点的最大温度差的平均值约为2. 805℃,平均温度差的平均值约为1. 551℃,标准偏差的平均值约为1. 121℃.因此基于SAR反馈形式的温度场仿真能有效地预测微波热消融中的温度分布,从而为临床热消融手术提供可靠的科学依据.