Title :
Table of contents
Abstract :
The following topics are dealt with: propagation and network planning, channel modeling and human exposure; time domain methods; analytical, numerical and hybrid methods in electromagnetics; antennas and arrays; nonlinear and UWB processes in high power electromagnetics; mathematical and computational electromagnetics; inverse scattering and remote sensing; optoelectronics and technologies for sub-mm waves; electromagnetic applications in biomedicine; electromagnetic theory; numerical methods in electromagnetics; metamaterials, nanotechnology and complex media; electromagnetic properties of carbon nanostructures; EM field metrology; electromagnetic measurements; mathematical advances in electromagnetics; EM technologies for astrophysics; plasma, random and nonlinear electromagnetics; bioeffects and medical applications; electromagnetics for healthcare and medical applications; radio astronomy; simulation technologies in computer aided engineering; microwave and multimodal imaging techniques in medical applications; electromagnetic modeling for EMC; wave physics modeling and inverse problems; fast integral equation solvers and stable discretizations; network methods in EM modelling; stochastic electromagnetic fields; effects of EM pulses on electronic systems; finite methods; electromagnetic devices; electromagnetic band gap; timed arrays; electromagnetic modeling of devices and circuits; and EMC/EMI/EMP.
Keywords :
antenna arrays; computational electromagnetics; electromagnetic compatibility; electromagnetic field theory; electromagnetic interference; electromagnetic pulse; health care; numerical analysis; EM field metrology; EM modelling; EM pulses; EM technology; EMC; EMI; EMP; UWB process; analytical method; antenna arrays; astrophysics; bioeffects; biomedicine; carbon nanostructures; channel modeling; complex media; computational electromagnetics; computer aided engineering; electromagnetic applications; electromagnetic band gap; electromagnetic devices; electromagnetic measurements; electromagnetic modeling; electromagnetic property; electromagnetic theory; electronic systems; fast integral equation solvers; finite methods; healthcare; high power electromagnetics; human exposure; hybrid method; inverse problems; inverse scattering; mathematical advances; mathematical electromagnetics; medical applications; metamaterials; microwave imaging techniques; multimodal imaging techniques; nanotechnology; network methods; network planning; nonlinear electromagnetics; nonlinear process; numerical methods; optoelectronics; plasma; propagation; radio astronomy; remote sensing; simulation technology; stable discretizations; stochastic electromagnetic fields; sub-mm waves; time domain methods; timed arrays; wave physics modeling;
Conference_Titel :
Electromagnetics in Advanced Applications (ICEAA), 2013 International Conference on
Conference_Location :
Torino
Print_ISBN :
978-1-4673-5705-0
DOI :
10.1109/ICEAA.2013.6632173