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Engineering Electromagnetics (Hardcover)
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Engineering Electromagnetics (Hardcover)
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The design of a device has long been a matter of experiences from
the engineers in charge of the work. They were quickly faced with
problems related with constraints. That is due to the increase data
rates, operational frequencies and the miniaturization of devices
to reduce their size and weight. With regards to engineering
electromagnetics, this book discusses method and design to control
the electromagnetic field effect in the systems. This literature
proposed models using numerical electromagnetic calculation to
simulate the behavior of device and to validate the efficiency and
accuracy of the method which turns out to be highly efficient and
accurate for the solution to electromagnetic problems. Also, to
design a device, optimization methods that achieve the desired
performance are discussed in this book. First chapter presents an
approach on microwave imaging under oblique illumination. In second
chapter, we discuss optimization of a WBAN system which uses
wireless communication technology to monitor physiological and
environmental parameters of firefighters and their exposure to
hazardous environmental conditions. Third chapter explores on
piezoelectric and electromagnetic conversion mechanisms, and fourth
chapter aims to design and develop a solenoid for miniaturized
segment robots with linear and turning motions. Fifth chapter
covers on the effect of electromagnetic fields with the mg2+
cyclotron frequency and sixth chapter presents an overview of
radially polarized random electromagnetic beam. Exploitation of
electromagnetic models is highlighted in seventh chapter. The main
aim of eighth chapter is to introduce the grey wolf optimization
(GWO) algorithm to the electromagnetics and antenna community.
Ninth chapter presents a study on the rollover characteristic of
in-wheel-motor-driven electric vehicles considering road and
electromagnetic excitation. In tenth chapter, we describe exposure
devices, SAR determination methods, and biological responses
observed after plant exposure to EMF. Eleventh chapter explores on
evolutionary algorithm geometry optimization of optical antennas.
Twelfth chapter examines the strong relation between grain size,
porosity, density, and magnetic properties of Ni-Zn ferrite at high
frequencies, with a view of forming certain material design
directions. In thirteenth chapter, a new process is presented in
order to design filters based on the leakage current and the
frequency components of the DC link current. Influence of growth
rate and magnetic field on microstructure and properties of
directionally solidified Ag-Cu eutectic alloy is presented in
fourteenth chapter. In fifteenth chapter, the electromagnetic
simulation of graphene is introduced and some widely used
computational electromagnetic methods for graphene modeling are
reviewed. The advantages and drawbacks of each method are discussed
and numerical examples of these methods are given to illustrate
their performance and application. Sixteenth chapter presents a
hybrid approach for fast computation of multiple incident angles
electromagnetic scattering problems with compressive sensing and
adaptive cross approximation. A theoretical study of the reflection
of infrared radiation from antiferromagnets and M-type barium
hexagonal ferrite using an attenuated total reflection geometry has
been presented in seventeenth chapter. Eighteenth chapter will
focus on how to model contacted balls and regular polyhedrons to
simulate the packing particles. It can also be employed in the
modeling of packing particles with complex shapes. Rectification of
RF fields in load dependent coupled systems has been presented in
nineteenth chapter. In twentieth chapter, we will fully take the
target Radar Cross Section (RCS) feature into account to propose a
novel RFAT echo generation method for missile-borne SAR. Twenty
first chapter presents an overview on electromagnetic acoustic
transducers and twenty second chapter presents a study on
electromagnetic acoustic transducers. Twenty third chapter presents
an approach on design options for the upgrade of the CMS
electromagnetic calorimeter and last chapter reviews on
electromagnetic contribution to charge symmetry violation in parton
distributions.
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