|
Showing 1 - 5 of
5 matches in All Departments
Features In-depth coverage of the role of AI in smart healthcare.
Research guideline for AI and data science
researchers/practitioners interested in the healthcare sector.
Comprehensive coverage on security and privacy issues for AI in
smart healthcare.
The book provides thorough discussion on emerging topics related to
6G wireless communication systems such as programmable wireless
environment (PWE); distributed and pervasive AI for wireless
communications as well as terahertz (THz) communications. 6G
Wireless: The Communication Paradigm Beyond 2030 provides
comprehensive coverage of the vision, requirement, use-cases,
enabling technologies, and challenges for the future 6G wireless
communication systems. This will include key use cases such as
Immersive and eXtended reality (IXR), advanced VR/AR, intelligent
humanoid robotics/devices, fully autonomous transportation,
intelligent and ubiquitous healthcare, neural communication through
brain interface, remote surgery, holographic/3D video
communications, high precision autonomous manufacturing and
haptic/tactile communications. For those use cases, the book
thoroughly analyses the challenges and requirements followed by
providing in-depth coverage of potential enabling technologies like
terahertz communications, pervasive and distributed AI battery-
less/ultra-low-power devices, programmable wireless environment,
metasurface for reconfigurability, cell-free or cell-less
architecture, quantum communications, 3D beamforming, energy
harvesting, and wireless power transfer, optical and visible light
communications, blockchain, and so on. The book also presents the
significant challenges facing the research community to meet the 6G
requirements as well as potential research directions to address
these challenges Written in tutorial style the primary audience of
the book is postgraduate students and researchers in the broad
domain of wireless communications as well as research-active
academics. The book can also be useful as a reference book for
BSc/MSc project/thesis works.
The objective of this edited book is to gather best practices in
the development and management of mobile apps projects. Mobile Apps
Engineering aims to provide software engineering lecturers,
students and researchers of mobile computing a starting point for
developing successful mobile apps. To achieve these objectives, the
book's contributors emphasize the essential concepts of the field,
such as apps design, testing and security, with the intention of
offering a compact, self-contained book which shall stimulate
further research interest in the topic. The editors hope and
believe that their efforts in bringing this book together can make
mobile apps engineering an independent discipline inspired by
traditional software engineering, but taking into account the new
challenges posed by mobile computing.
The objective of this edited book is to gather best practices in
the development and management of mobile apps projects. Mobile Apps
Engineering aims to provide software engineering lecturers,
students and researchers of mobile computing a starting point for
developing successful mobile apps. To achieve these objectives, the
book's contributors emphasize the essential concepts of the field,
such as apps design, testing and security, with the intention of
offering a compact, self-contained book which shall stimulate
further research interest in the topic. The editors hope and
believe that their efforts in bringing this book together can make
mobile apps engineering an independent discipline inspired by
traditional software engineering, but taking into account the new
challenges posed by mobile computing.
Orthogonal Frequency Division Multiplexing (OFDM) is a promising
technique for recent and future wireless communication systems
mainly due to its high spectral efficiency and inherent capacity to
combat Inter Symbol Interference (ISI). However it suffers from
nonlinear error problem, popularly known as high Peak to Average
Power Ratio (PAPR) due to nonlinear transfer function of Power
Amplifiers in Transmitters. It causes severe performance
degradation to the systems that employ link adaptation for
achieving better efficiency such as LTE and WiMAX. Therefore it is
important to understand the nature and impact of the error. This
book will discuss basics of OFDM and provide an in depth
understanding of the nonlinear error and its impact of link
adaptive OFDM systems. It also provides detail simulation results
and analysis of its impact on the system for different channel
condition, modulation and FEC coding rate. Finally a compensation
technique will be introduced to overcome the impact of nonlinear
errors.
|
|