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This book investigates energy management approaches for energy
efficient or energy-centric system design and architecture and
presents end-to-end energy management in the recent
heterogeneous-type wireless network medium. It also considers
energy management in wireless sensor and mesh networks by
exploiting energy efficient transmission techniques and protocols.
and explores energy management in emerging applications, services
and engineering to be facilitated with 5G networks such as WBANs,
VANETS and Cognitive networks. A special focus of the book is on
the examination of the energy management practices in emerging
wireless cellular and ad hoc networks. Considering the broad scope
of energy management in wireless cellular and ad hoc networks, this
book is organized into six sections covering range of Energy
efficient systems and architectures; Energy efficient transmission
and techniques; Energy efficient applications and services.
This book investigates energy management approaches for energy
efficient or energy-centric system design and architecture and
presents end-to-end energy management in the recent
heterogeneous-type wireless network medium. It also considers
energy management in wireless sensor and mesh networks by
exploiting energy efficient transmission techniques and protocols.
and explores energy management in emerging applications, services
and engineering to be facilitated with 5G networks such as WBANs,
VANETS and Cognitive networks. A special focus of the book is on
the examination of the energy management practices in emerging
wireless cellular and ad hoc networks. Considering the broad scope
of energy management in wireless cellular and ad hoc networks, this
book is organized into six sections covering range of Energy
efficient systems and architectures; Energy efficient transmission
and techniques; Energy efficient applications and services.
This book is focused on wireless infrastructure deployment in
modern transportation markets, where the wireless infrastructure
co-exists with the existing structure. It details the challenges
this deployment may face and explores the mitigation measures to
overcome the challenges. The book proposes a smart antenna
structure to overcome airspace congestion, which improves the
overall wireless performance and deployment cost. With the
combination of practical know-how and theoretical estimation, this
book provides insight on how the modern smart antenna techniques
that support most cutting-edge wireless technology can be adopted
into the existing infrastructure whilst minimising the distraction
to the existing system. This book is suitable for industrial and
academic researchers, practising engineers within the field of
smart antennae, and wireless infrastructure designers and
developers.
Mobile communication systems rely on radiofrequency waves to
operate. Given the popularity and ubiquity of mobile communication
devices as well as network densification, the level of
Electromagnetic Field (EMF) exposure to the public is expected to
rise significantly over the next few years. Although there is no
clear evidence linking short-term exposure to EMF emission from
wireless communication systems with adverse health effects, the
International Agency for Research on Cancer (IARC) has concluded
that EMF radiation is possibly carcinogenic. To cope with the
concerns of the general public, the European Environmental Agency
has recommended non-technical precautionary approaches to minimize
exposure to EMF emissions. Rather than relying on these
non-technical approaches, EMF, latency, network resilience and
connection density, alongside traditional criteria such as spectral
efficiency and energy efficiency are expected to take centre stage
in the development of 5G systems. This book focuses on innovative
EMF exposure research for future generations of mobile and wireless
communications. This timely publication highlights the novel work
done on reducing EMF emissions in future mobile communication
systems and how to develop smart integrated technical solutions.
The widespread use of mobile internet and smart applications has
led to an explosive growth in mobile data traffic, which will
continue due to the emerging need of connecting people, machines,
and applications in an ubiquitous manner through the mobile
infrastructure. The efficient and satisfactory operation of all
these densely deployed networks hinges on a suitable backhaul and
fronthaul provisioning. The research community is working to
provide innovative technologies with extensive performance
evaluation metrics along with the required standardisation
milestones, hardware and components for a fully deployed network by
2020 and beyond. Access, Fronthaul and Backhaul Networks for 5G
& Beyond provides an overview from both academic and industrial
stakeholders of innovative backhaul/fronthaul solutions. Covering a
wide spectrum of underlying themes ranging from the recent thrust
in edge caching for backhaul relaxation to mmWave-based
fronthauling for radio access networks, this book is essential
reading for engineers, researchers, designers, architects,
technicians, students and service providers in the field of
networking, mobile and wireless and computing technologies working
towards the deployment of 5G networks.
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