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The book will cover the past, present and future developments of field theory and computational electromagnetics. The first two chapters will give an overview of the historical developments and the present the state-of-the-art in computational electromagnetics. These two chapters will set the stage for discussing recent progress, new developments, challenges, trends, and major directions in computational electromagnetics with three main emphases: a. Modeling of ever larger structures with multi-scale dimensions and multi-level descriptions (behavioral, circuit, network and field levels) and transient behaviours b. Inclusions of physical effects other than electromagnetic: quantum effects, thermal effects, mechanical effects and nanoscale features c. New developments in available computer hardware, programming paradigms (MPI, OpenMP, CUDA, and OpenCL) and the associated new modeling approaches These are the current emerging topics in the area of computational electromagnetics and may provide readers a comprehensive overview of future trends and directions in the area. The book is written for students, research scientists, professors, design engineers and consultants who engaged in the fields of design, analysis and research of the emerging technologies related to computational electromagnetics, RF/microwave, optimization, new numerical methods, as well as accelerator simulator, dispersive materials, nano-antennas, nano-waveguide, nano-electronics, terahertz applications, bio-medical and material sciences. The book may also be used for those involved in commercializing electromagnetic and related emerging technologies, sensors and the semiconductor industry. The book can be used as a reference book for graduates, and post graduates. It can also be used as a text book for workshops and continuing education for researchers and design engineers.
Engineering. --- Microwaves, RF and Optical Engineering. --- Circuits and Systems. --- Magnetism, Magnetic Materials. --- Magnetism. --- Microwaves. --- Systems engineering. --- Ingénierie --- Magnétisme --- Micro-ondes --- Ingénierie des systèmes --- Electromagnetism -- Data processing. --- Magnetism -- Experiments. --- Nondestructive testing. --- Electromagnetism. --- Electromagnetics --- Magnetic materials. --- Optical engineering. --- Electronic circuits. --- Magnetic induction --- Magnetism --- Metamaterials --- Mathematical physics --- Physics --- Electricity --- Magnetics --- Engineering systems --- System engineering --- Engineering --- Industrial engineering --- System analysis --- Hertzian waves --- Electric waves --- Electromagnetic waves --- Geomagnetic micropulsations --- Radio waves --- Shortwave radio --- Design and construction --- Materials --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Electronics --- Mechanical engineering
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The book will cover the past, present and future developments of field theory and computational electromagnetics. The first two chapters will give an overview of the historical developments and the present the state-of-the-art in computational electromagnetics. These two chapters will set the stage for discussing recent progress, new developments, challenges, trends, and major directions in computational electromagnetics with three main emphases: a. Modeling of ever larger structures with multi-scale dimensions and multi-level descriptions (behavioral, circuit, network and field levels) and transient behaviours b. Inclusions of physical effects other than electromagnetic: quantum effects, thermal effects, mechanical effects and nanoscale features c. New developments in available computer hardware, programming paradigms (MPI, OpenMP, CUDA, and OpenCL) and the associated new modeling approaches These are the current emerging topics in the area of computational electromagnetics and may provide readers a comprehensive overview of future trends and directions in the area. The book is written for students, research scientists, professors, design engineers and consultants who engaged in the fields of design, analysis and research of the emerging technologies related to computational electromagnetics, RF/microwave, optimization, new numerical methods, as well as accelerator simulator, dispersive materials, nano-antennas, nano-waveguide, nano-electronics, terahertz applications, bio-medical and material sciences. The book may also be used for those involved in commercializing electromagnetic and related emerging technologies, sensors and the semiconductor industry. The book can be used as a reference book for graduates, and post graduates. It can also be used as a text book for workshops and continuing education for researchers and design engineers.
Fluid mechanics --- Optics. Quantum optics --- Electromagnetism. Ferromagnetism --- Spectrometric and optical chemical analysis --- Electrical engineering --- telecommunicatie --- magnetisme --- elektrische circuits --- spectrometrie --- optica
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Direction-of-Arrival (DOA) estimation concerns the estimation of direction finding signals in the form of electromagnetic or acoustic waves, impinging on a sensor or antenna array. DOA estimation is used for locating and tracking signal sources in both civilian and military applications. This authoritative volume provides an overview and performance analysis of the basic DOA algorithms, including comparisons between the various types. The book offers you a detailed understanding of the arrays pertinent to DOA finding, and presents a detailed illustration of the ESPRIT-based DOA algorithms compl.
Estimation theory. --- Electrical engineering --- Signal processing --- Radio direction finders. --- Electronics in navigation. --- Mathematics.
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