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This book discusses advanced technologies for applications in
renewable energy and power systems. The topics covered include
neural network applications in power electronics, deep learning
applications in power systems, design and simulation of multilevel
inverters, solid state transformers, neural network applications
for fault detection in power electronics, etc. The book also
discusses the important role of artificial intelligence in power
systems, and machine learning for renewable energy. This book will
be of interest to researchers, professionals, and technocrats
looking at power systems, power distribution, and grid operations.
This book discusses advanced technologies for applications in
renewable energy and power systems. The topics covered include
neural network applications in power electronics, deep learning
applications in power systems, design and simulation of multilevel
inverters, solid state transformers, neural network applications
for fault detection in power electronics, etc. The book also
discusses the important role of artificial intelligence in power
systems, and machine learning for renewable energy. This book will
be of interest to researchers, professionals, and technocrats
looking at power systems, power distribution, and grid operations.
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.
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