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A Miniaturized Perfect Metamaterial Absorber for EMI Radiation Suppression IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-17 Yan Li, Yunxi Wu, Da Li, Mingmin Zhu, Yang Qiu, Guoliang Yu, Erping Li
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IEEE Electromagnetic Compatibility Society Information IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-17
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IEEE Transactions on Electromagnetic Compatibility Information for Authors IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-17
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Correlation and Spectral Density Functions in Mode-Stirred Reverberation – III. Measurements IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-17 Luk R. Arnaut, John M. Ladbury
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An EMI Susceptibility Improved, Wide Temperature Range Bandgap Voltage Reference IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-16 David Krolák, Pavel Horský
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Concrete Encased Grounding: Lightning Response Analysis Considering the Frequency Dependence of Soil IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-16 Gabriel Vidal Negreiros Bezerra, Fernando Augusto Moreira, Tarso V Ferreira, Rafael Alipio
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Design and Analysis of LCC-S Wireless Power Transfer Systems Considering Load-Dependent Leakage Magnetic Field IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-10 Seongho Woo, Yujun Shin, Changmin Lee, Jungick Moon, Hyunwoong Kim, Hongseok Kim, Sungryul Huh, Seungyoung Ahn
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Statistical Analysis of Cavity Quality Factor Due to Localized Losses With the Stochastic Green's Function Method IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-09 Shen Lin, Sangrui Luo, Yang Shao, Bisrat D. Addissie, Zachary B. Drikas, Gabriele Gradoni, Zhen Peng
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A Modeling Method and Characteristics Study of EMI in 12-Phase Rectifier Circuit With Actual Switching Process Based on State Transition IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-09 YinXiang Xu, Qi-Feng Liu, Bailin Mou, Chen Huang, Wenxiong Peng, Xuegui Zhu, Huai-Qing Zhang
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Time-Resolved Electromagnetic Near-Field Scanning: Dual Sparse Sampling in Time and Space IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-08 Yanming Zhang, Peifeng Ma, Lijun Jiang, Steven Gao
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Energy-Saving Glass Loading Dual-Band Miniaturized FSS for RF Shielding With High Oblique Stability and Optical Transparency IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-03 Zhaoran Chen, Yang Li, Zezhong Wang, Junjie Hu, Xiayuan Yao
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A Framework for Comparing and Predicting Stirrer Efficiencies in Different Reverberation Chambers IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-03 Andrea Cozza
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An Analysis of Electromagnetic Signatures From Triangularly Modulated Spread Spectrum Clocking Signals IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-03 Euibum Lee, Dong-hoon Choi, Taesik Nam, Wonjoon Choi, Jong-gwan Yook
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Correlation and Spectral Density Functions in Mode-Stirred Reverberation—I. Theory IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-01 Luk R. Arnaut
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A Closed-Form Approximation for Sunde's Ground-Return Expression Based on a Padé Approximant IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-01 Alberto De Conti, Antonio Carlos Siqueira de Lima
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Frequency-Selective Rasorber for Wideband Transmission Based on Hybrid Resistive Sheet With Harmonic Suppression IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-01 Yuxu Chen, Guobin Wan, Xin Ma, Bin Fu, Xinhui Jiao
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Transient Electromagnetic Interference between Overhead and Underground Conductors IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-04-01 Amauri G. Martins-Britto, Theofilos A. Papadopoulos, Andreas I. Chrysochos
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High-Power Microwave Threat to a Notional Earth-Observing Space Telescope IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-29 John R. Solin
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Lightning Location and Peak Current Estimation From Lightning-Induced Voltages on Transmission Lines With a Machine Learning Approach IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-27 Martino Nicora, Mauro Tucci, Sami Barmada, Massimo Brignone, Renato Procopio
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Fast Calculation Method for Crosstalk of High-Density Printed Circuit Board by Using Machine Learning IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-22 Dan Shi, Na Sun, Yanchi Liu, Cheng Lian, Xingyu Chen, Xiaoya Zhou, Xiaoyong Liu, Qiwei Liu, Juejia Zhou
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Conductive Thin-Film Structure for EMP Protection of Operational Infrastructure Facilities: Measurement and Verification up to 18 GHz IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-21 Dae-Yeon Kim, Dae-Heon Lee, Up Namkoong
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Impact of BGA Package Failure on Crosstalk in Microwave Circuits Using GSG Structure IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-19 Kaixuan Song, Jinchun Gao, Ziren Wang, Chaoyi Wang, Rui Ji, Hafiz Muhammad Bilal
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An Approximation to the Heidler Function With an Analytical Integral IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-19 Brett R. Terespolsky, Hugh G. P. Hunt, Ken J. Nixon
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A Method of Metal Interference Suppression by Circular Internal Flux for Rotating Wireless Power Supply System IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-18 Wenjiang Yuan, Xian Zhang, Lin Sha, Zhixin Chen
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Investigation of Criterion for Applying Incident Power Density in the Near-Field Region for EMF Assessment at Quasi-Millimeter and Millimeter-Wave Frequencies IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-18 Ming Yao, Gert Frølund Pedersen, Shuai Zhang
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Equivalent Source Investigation for PCB Vibration Excited by a Multilayer Ceramic Capacitor IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-14 Yifan Ding, Ming-Feng Xue, Jianmin Zhang, Xin Hua, Benjamin Leung, Eric A. MacIntosh, Chulsoon Hwang
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Metamaterial-Based Angular Stable Polarization-Insensitive Hepta-Band Microwave Absorber With Salient Features for RCS Reduction and Antenna Radiation Improvement IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-07 Shyam Sundar Pati, Swaroop Sahoo
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AI-Assisted Identification of State and Type of Flat-Panel Monitors in the Presence of EM Noise IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-07 Darko M. Ninković, Dragan I. Olćan
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Analysis of Cooperative Operating Concepts for Robust Data Transmission in Periodically Disturbed CAN FD Networks IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-03-07 Carina Austermann, Stephan Frei
The demands on safety and reliability of fast automotive communication systems like controller area network (CAN) or CAN with flexible data rate (CAN FD) grow with the increasing use of highly automated driving functions in future vehicles. As the vehicular electromagnetic environment is very challenging, electromagnetic interference (EMI) and cable coupling in the extended wire harness are important
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Accelerated Evaluation of Quasi-Static Interaction Integrals via Cubic Spline Interpolation in the Framework of the PEEC Method IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-29 Daniele Romano, Ivana Kovacevic-Badstuebner, Giulio Antonini, Ulrike Grossner
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Calculation of ATEM Cell Characteristic Impedance Based on Static Field Approximation and MoM IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-29 Yixing Gu, Zhongyuan Zhou, Jinjing Ren, Mingjie Sheng, Qi Zhou
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Mixed Uncertainty Quantification and Imprecise Sensitivity Analysis for EMC Assessment Based on Probability Box Theory and Polynomial Chaos IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-27 Yinhao Wang, Gang Li, Quanyi Yu, Haolin Jiang, Shuai Pi, Tianhao Wang, Yaodan Chi
Electromagnetic compatibility (EMC) of electrical equipment is frequently affected by a lot of aleatory and epistemic uncertainties, which may result in a serious decline in the EMC of equipment. Accordingly, the mixed epistemic–aleatory uncertainty quantification (UQ) is crucial in the performance assessment and optimization of EMC. This study proposes a mixed UQ and imprecise sensitivity analysis
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Extension of a Hybrid MTL/MoM Approach for Automotive Applications IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-27 Irina Oganezova, Anna L. Gheonjian, Badri Khvitia, Xavier Bunlon, Roman Jobava
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Transient Voltage Suppressor Diode Array Protection Circuits with Reducing Loading Effect under High-Power Microwave Pulse Injection IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-27 Yue Zhang, Liang Zhou, Jun-Fa Mao
This article aims to design transient voltage suppressor (TVS) diode array protection circuits under high-power microwave (HPM) pulse injection to protect sensitive semiconductor and microwave devices from interfered or even damaged by intentionally electromagnetic interference. First of all, conductivity modulation with charge dependent resistors is added into original nonlinear large signal TVS diode
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Notes on “Analytical Model for Low-Frequency Magnetic Field Penetration Through a Circular Aperture on a Perfect Electric Conductor Plate” IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-22 Dingyu Qin, Sijia Liu, Yuxin Zhu, Chongqing Jiao
Recently, the magnetic field penetration through a circular aperture in a thin perfect electric conductor when excited by a loop antenna placed coaxially with the aperture is solved analytically in the quasi-static frame. However, the analytical solution is only applicable to the longitudinal component. Here, we present two approaches to obtain the transverse component. The first one belongs to the
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Closed-Form Expressions of Fields Radiated From an Annular Ring of Magnetic Current IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-22 Sameir M. Ali Hamed
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Design of Miniaturized Frequency Selective Rasorber Based on Complementary Bandpass FSS for 5G Applications IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-19 Yi Li, Peng Ren, Ruijie Chen, Baoyi Xu, Zheng Xiang, Minrui Wang
In this letter, a miniaturized frequency selective rasorber (FSR) based on complementary bandpass frequency selective surface (FSS) for fifth generation applications is designed. It is formed by the superposition of tortuous annular resistive layer and complementary bandpass FSS layer. The tortuous annular resistive layer consists of a regular octagonal patch and two bent metal rings. Four lumped capacitors
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Modeling Wideband Radiated Emissions From PCBs in Shielding Enclosures Based on Single-Plane Phaseless Near-Field Scanning IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-19 Zhifei Xiao, Zi An Wang, Li Jun Jiang, Ping Li
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IEEE Transactions on Electromagnetic Compatibility Information for Authors IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-16
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IEEE Electromagnetic Compatibility Society Information IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-16
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Measurement of Ambient Magnetic Field Noise for Through-the-Earth (TTE) Communications and Historical Comparisons IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-13 Chenming Zhou, David P. Snyder, Benjamin Epstein, Zachary T. Robinson, George Y. Jin, Priscilla Y. Tang, Ronald G. Polcawich, Mike Roper
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A New Hybrid Equivalent Modeling Method of Low-Frequency Radiation Source Based on GS and JADE Algorithms and Phaseless Near-Field Data IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-12 Xiaoting Huang, Qifeng Liu, Hao Chen, Yongming Li, Chen Huang, Xuegui Zhu, Huaiqing Zhang, Wen-Yan Yin
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Artificial Neural Networks With Fast Transfer Learning for Statistical Signal Integrity Analysis of MWCNT and MLGNR Interconnect Networks IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-12 Surila Guglani, Asha Kumari Jakhar, Km Dimple, Ankit Sukhija, Avirup Dasgupta, Rohit Sharma, Brajesh Kumar Kaushik, Sourajeet Roy
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Prediction of Electromagnetic Coupling in Complicated Enclosures With External Excitation Through an Aperture Using Extended Random Coupling Model IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-02-12 Hong Soo Park, Young Jin Song, Woo Sang Lee, Jin Soo Choi, Sun K. Hong
For the prediction of electromagnetic (EM) coupling in a complex (wave-chaotic) enclosure, the random coupling model (RCM) has proven useful. The applicability of RCM has been demonstrated using various complex enclosures, but their reported validations are mostly with the input and output ports placed within the enclosure. However, since many practical scenarios consist of EM coupling through an aperture
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Numerical Prediction of Lightning Current Distribution Within Weakly Conductive Polymeric Materials Using the Kirchhoff Paradigm IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-24 Slimane Rezgui
In this article, we suggest an approach based on the multidimensional circuit theory for the numerical integration of the electrodynamic equations in a weakly conductive anisotropic medium. Starting from a set of hyperbolic partial differential equations, expressed in a suitable reference frame, we derive a multidimensional passive Kirchhoff network, describing the electromagnetic behavior of a carbon
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Numerical Simulation of the Negative Downward Leader Current With the Associated Far-EM Field Generated by Lightning IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-24 Asmaa Lakhdar
In safeguarding electronic systems and structures against the potent electromagnetic pulses generated by lightning, it is crucial to integrate lightning protection measures with an understanding of the negative downward-leader lightning current and the corresponding electromagnetic field characteristics. This article undertakes a numerical analysis of both the lightning current stroke and the far-radiated
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Vulnerability Assessment of Equipment Excited by Disturbances for Class Imbalance Problem Based on Improved Kernel Density Estimation IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-23 Zong-yang Wang, Yan-zhao Xie, Yu-hao Chen, Ning Dong, Min-zhou Liu
Due to the difficulty in collecting samples of certain effect levels, the class imbalance problem is a challenging issue in vulnerability assessment. The class imbalance problem would cause deviation of likelihood function and thus deviate the result of vulnerability assessment. Conventional assessment method ignoring it would lead to over- or under-estimation. In this article, we propose the improved
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High-Frequency Electromagnetic Field Coupling to Transmission Line With Discontinuity Above a Lossy Ground IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-23 Jun Guo, Qun-Shuang Zheng, Wei-Chen Xie, Yan-Zhao Xie, Sergey V. Tkachenko
Transmission lines are very important in electrical systems. High-frequency electromagnetic fields can couple to overhead lines. Once the wavelength of the high-frequency electromagnetic field is smaller than the height of the transmission line, the classic transmission line theory is no longer applicable. Although the traditional full-wave numerical algorithm can solve this problem, it is not efficient
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Methodology for Extracting Low-Frequency Input Impedance of Personal Computer During Operation Using Dual Current Probes Method IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-17 Jaewon Rhee, Hyunwoong Kim, Kwanguk Chu, Seungyoung Ahn
This article proposes a measurement methodology for extracting input impedance while operating a power device such as a personal computer (PC). Electronic devices such as switched-mode power supply in PC may have different impedances depending on operating conditions. So, the effect of external noise during operation can be predicted through impedance extraction. Since it uses a type of inductive coupling
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A Segmentation Approach for Predicting Plane Wave Coupling to PCB Structures IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-17 Shengxuan Xia, James Hunter, Aaron Harmon, Ahmed M. Hassan, Victor Khilkevich, Daryl G. Beetner
Evaluating the far-field radio frequency (RF) susceptibility of electronic devices often depends on extensive testing or full wave simulations. These methods are effective when complete system information is available but require substantial time and resources to evaluate a large number of variations in system configurations, where trace routings, integrated circuit (IC) package styles, trace terminations
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Controller Area Network With Flexible Data Rate (CAN FD) Eye Diagram Prediction IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-17 Junyong Park, Manho Lee, Shinyoung Park, Jonghoon Kim, Joungho Kim, DongHyun Kim
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Policy-Based Reinforcement Learning for Through Silicon Via Array Design in High-Bandwidth Memory Considering Signal Integrity IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-17 Keunwoo Kim, Hyunwook Park, Seongguk Kim, Youngwoo Kim, Kyungjune Son, Daehwan Lho, Keeyoung Son, Taein Shin, Boogyo Sim, Joonsang Park, Shinyoung Park, Joungho Kim
In this article, a policy-based reinforcement learning (RL) method for optimizing through silicon via (TSV) array design in high-bandwidth memory (HBM) considering signal integrity is proposed. The proposed method can provide an optimal TSV-array signal/ground pattern design to maximize the eye opening (EO), which determines the bandwidth of the high-speed TSV channel. The proposed method adopts the
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Modeling of the Mode Conversion Effect Induced by Asymmetry/Coating in Floating Multiconductor Cables IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-10 Zongfei Zhou, Bing Li, Chen Wang, Yaoyao Li, Donglin Su
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Metasurface-Based Phone Case for the SAR Reduction of the 5G Mobile Phones IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-10 Md. Abu Sufian, Niamat Hussain
The prolonged radiation exposure from mobile phone antennas may cause several health problems. In this article, an innovative method derived from a metasurface-based phone case is introduced to reduce the electromagnetic (EM) exposure from mobile phones. A metasurface consisting of 2 × 3 unit cells, is directly printed on a commercially available phone case. The effective utilization of the slotted
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A Domain Decomposition Approach for Cost Effective Transmission Lines Time Domain Stochastic Simulations IEEE Trans. Electromagn Compat. (IF 2.1) Pub Date : 2024-01-10 Imane Massaoudi, Pierre Bonnet
Uncertainty propagation and quantification are of great interest in computational electromagnetic simulations. It is particularly relevant in the context of electromagnetic compatibility where high-dimensional random variables problems rules. However, solving multirandom variable systems is an exceedingly difficult task due to the notoriously challenging problem known as “the curse of dimensionality”