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7 matches in All Departments
Green Energy Systems: Design, Modelling, Synthesis and Applications
provides a comprehensive introduction to the design, modeling,
optimization and application of predictable and alternative energy
systems. With a strong focus on the fundamentals, the book provides
an overview of the energy potential and conversion topology of
green energy sources, the design and analysis of off grid solar and
wind energy sources, and their application in effective energy
management in rural communities. Sections address energy systems
from solar, wind, biomass, and hybrid energy sources, and include
discussions of power electronic circuit topologies for energy
conversion in both off and on grid systems. The second part of the
book addresses energy harvesting at different scales, with a
particular emphasis on micro energy harvesting for low power
electronics like wearable devices. A wide range of applications are
also discussed, alongside their challenges and solutions. Finally,
case studies are presented on select topics to give readers deeper
insights into the real-world applications discussed.
Phosphors are often consisting of transition-metal compounds or
rare-earth compounds, with the most common application being
displays and fluorescent light. This book will guide the reader
through the latest developments in thermo-, electro-, mechano- and
bioluminescence of rare earth phosphors and crystals. Also, the
effect of doping will be discussed.
Bendable wearable materials like conductive strands, fluid metallic
mixes, and polymer in paper are generally utilized as a part of the
current adaptable electronic gadgets. Extra necessities are
implemented in wearable applications. Characteristic elastic, for
example, is an appealing exchange adaptable material that is
biocompatible and offers high conductivity, low lost, simplicity to
make, and most importantly, it is water/climate safe and condition
amicable. The wearable antenna is one of the key components to
establish body area network (BAN) for wireless communication, which
is why it has become such an important part of antenna research.
Wearable antennas are being applied successfully in various parts
of life such as health monitoring, physical training, navigation,
RFID, medicine, military, and more. Emerging Materials and Advanced
Designs for Wearable Antennas explores how wearable antenna
technology is being employed to enhance the quality of life in
various industries. The technologies implemented and success of
these antenna technologies is essential in the emerging field of
wearable computing and is discussed in detail within the contents
of this book. While covering essential topics such as the
optimization of antenna material, improvement in flexible antenna
performance, synthesis and design aspects of antennas, and
transmission and receiving of the bendable antenna, this book is
ideal for the military field, scientists, the medical field,
practitioners, stakeholders, researchers, academicians, and
students looking for the most advanced and updated research on the
technology and implementation of wearable antennas spanning
multiple industries.
Bendable wearable materials like conductive strands, fluid metallic
mixes, and polymer in paper are generally utilized as a part of the
current adaptable electronic gadgets. Extra necessities are
implemented in wearable applications. Characteristic elastic, for
example, is an appealing exchange adaptable material that is
biocompatible and offers high conductivity, low lost, simplicity to
make, and most importantly, it is water/climate safe and condition
amicable. The wearable antenna is one of the key components to
establish body area network (BAN) for wireless communication, which
is why it has become such an important part of antenna research.
Wearable antennas are being applied successfully in various parts
of life such as health monitoring, physical training, navigation,
RFID, medicine, military, and more. Emerging Materials and Advanced
Designs for Wearable Antennas explores how wearable antenna
technology is being employed to enhance the quality of life in
various industries. The technologies implemented and success of
these antenna technologies is essential in the emerging field of
wearable computing and is discussed in detail within the contents
of this book. While covering essential topics such as the
optimization of antenna material, improvement in flexible antenna
performance, synthesis and design aspects of antennas, and
transmission and receiving of the bendable antenna, this book is
ideal for the military field, scientists, the medical field,
practitioners, stakeholders, researchers, academicians, and
students looking for the most advanced and updated research on the
technology and implementation of wearable antennas spanning
multiple industries.
Wearable continuous monitoring systems are necessary in risky
environments such as mining and diving and are especially important
in the medical monitoring of patients both in medical facilities
and at home. All these applications of monitoring with data
transmission functions can be achieved by using wearable antennas.
Recently, possibilities of connecting completely independent
appliances with textiles have emerged. However, full success will
be achieved only when antennas and all related components are
entirely converted into 100% textile materials. Design and
Optimization of Sensors and Antennas for Wearable Devices provides
innovative insights on the development of adaptable materials and
textile antennas that can be used in the construction of wearable
devices that are biocompatible and offer high conductivity, low
cost, simplistic manufacturing, are comfortable for the wearer, and
are water/climate safe and condition amicable. The content within
this publication examines data transmission, wearable computing,
and medical applications. It is designed for engineers,
manufacturers, researchers, academicians, and scientists who are
interested in the development of wearable technologies.
Wearable continuous monitoring systems are necessary in risky
environments such as mining and diving and are especially important
in the medical monitoring of patients both in medical facilities
and at home. All these applications of monitoring with data
transmission functions can be achieved by using wearable antennas.
Recently, possibilities of connecting completely independent
appliances with textiles have emerged. However, full success will
be achieved only when antennas and all related components are
entirely converted into 100% textile materials. Design and
Optimization of Sensors and Antennas for Wearable Devices: Emerging
Research and Opportunities provides innovative insights on the
development of adaptable materials and textile antennas that can be
used in the construction of wearable devices that are biocompatible
and offer high conductivity, low cost, simplistic manufacturing,
are comfortable for the wearer, and are water/climate safe and
condition amicable. The content within this publication examines
data transmission, wearable computing, and medical applications. It
is designed for engineers, manufacturers, researchers,
academicians, and scientists who are interested in the development
of wearable technologies.
The design and study of materials is a pivotal component to new
discoveries in the various fields of science and technology. By
better understanding the components and structures of materials,
researchers can increase their applications across different
industries. Emerging Synthesis Techniques for Luminescent Materials
is a critical scholarly resource that explores the important field
of emerging synthesis techniques of luminescent materials and its
practical applications. Featuring coverage on a broad range of
topics such as electroluminescence, glow curve analysis, and
upconversion, this book is geared towards engineers, academics,
researchers, students, professionals, and practitioners seeking
current research on photoluminescence and the study of rare earth
doped phosphors.
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