Title :
Table of contents
Abstract :
The following topics are dealt with: electromagnetic components; antenna technology; metamaterial surfaces; nano-enabled antennas and EM devices; mm-wave antennas; electromagnetic theory; antenna arrays; electromagnetic wave propagation; remote sensing; microwave imaging techniques; communication systems and sensor networks; tomography; volumetric electromagnetic materials; atmospheric and ionospheric propagation characterization; guided-wave metamaterial structures; wireless communication; wireless power transfer; MIMO communication and radar systems; medical imaging and sensing; finite-difference time-domain methods; vehicular communications; antenna theory and design; antenna feed circuits; inverse scattering; millimeter-wave lenses and beam shaping; integral equations; EM noise; characteristic mode analysis; graphene, carbon nanotubes, and nanowires; education and simulation tools; mobile communications; multi-scale and multi-physics solvers; guided waves and waveguiding structures; electromagnetic dosimetry and exposure assessment; RF and microwave medical devices design; cognitive radio and cognitive radar; electromagnetic interaction and coupling; numerical electromagnetics; RFID system; EMC metrology; printed circuits and front-ends; electromagnetic band gap structures; frequency selective surfaces; and finite element analysis.
Keywords :
MIMO communication; MIMO radar; antenna arrays; antenna feeds; antenna theory; biomedical equipment; biomedical imaging; carbon nanotubes; cognitive radio; dosimetry; electromagnetic coupling; electromagnetic devices; electromagnetic wave scattering; finite difference time-domain analysis; finite element analysis; frequency selective surfaces; graphene; inductive power transmission; integral equations; ionospheric electromagnetic wave propagation; metamaterials; microwave imaging; mobile communication; nanowires; photonic band gap; printed circuits; radiofrequency identification; radiofrequency power transmission; remote sensing; telecommunication engineering education; tomography; waveguides; wireless sensor networks; EM devices; EM noise; EMC metrology; MIMO communication; RF medical devices design; RFID system; antenna arrays; antenna design; antenna feed circuits; antenna technology; antenna theory; atmospheric propagation characterization; beam shaping; carbon nanotubes; characteristic mode analysis; cognitive radar; cognitive radio; communication systems; education tools; electromagnetic band gap structures; electromagnetic components; electromagnetic coupling; electromagnetic dosimetry; electromagnetic interaction; electromagnetic theory; electromagnetic wave propagation; exposure assessment; finite element analysis; finite-difference time-domain methods; frequency selective surfaces; front-ends; graphene; guided waves; guided-wave metamaterial structures; integral equations; inverse scattering; ionospheric propagation characterization; medical imaging; medical sensing; metamaterial surfaces; microwave imaging techniques; microwave medical devices design; millimeter-wave lenses; mm-wave antennas; mobile communications; multiphysics solvers; multiscale solvers; nano-enabled antennas; nanowires; numerical electromagnetics; printed circuits; radar systems; remote sensing; sensor networks; simulation tools; tomography; vehicular communications; volumetric electromagnetic materials; waveguiding structures; wireless power transfer;
Conference_Titel :
Antennas and Propagation Society International Symposium (APSURSI), 2014 IEEE
Conference_Location :
Memphis, TN
Print_ISBN :
978-1-4799-3538-3
DOI :
10.1109/APS.2014.6904331
