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This book constitutes the refereed proceedings of the 4th EAI
International Conference on Industrial Networks and Intelligent
Systems, INISCOM 2018, held in Da Nang, Vietnam, in August 2018.
The 26 full papers were selected from 38 submissions and are
organized thematically in tracks: Telecommunications Systems and
Networks; Industrial Networks and Applications; Hardware and
Software Design and Development; Information Processing and Data
Analysis; Signal Processing; Security and Privacy.
This book constitutes the thoroughly refereed post-conference
proceedings of the Third International Conference on Industrial
Networks and Intelligent Systems, INISCOM 2017, held in Ho chi Minh
City, Vietnam, in September 2017. The 31 revised full papers
carefully reviewed and selected from 45 submissions. The papers
cover topics on telecommunications systems and networks,
intelligent systems, industrial networks, and applications,
computer science, security and privacy, hardware and software
design.
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Quality, Reliability, Security and Robustness in Heterogeneous Systems - 14th EAI International Conference, Qshine 2018, Ho Chi Minh City, Vietnam, December 3-4, 2018, Proceedings (Paperback, 1st ed. 2019)
Trung Q. Duong, Nguyen-Son Vo, Van Ca Phan
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R1,684
Discovery Miles 16 840
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Ships in 10 - 15 working days
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This book constitutes the refereed post-conference proceedings of
the 14th EAI International Conference on Quality, Reliability,
Security and Robustness in Heterogeneous Networks, QShine 2018,
held in Ho Chi Minh City, Vietnam, in December 2018. The 13 revised
full papers were carefully reviewed and selected from 28
submissions. The papers are organized thematically in tracks,
starting with security and privacy, telecommunication systems and
networks, networks and applications.
Ultra-Reliable and Low-Latency Communications (URLLC) Theory and
Practice Comprehensive resource presenting important recent
advances in wireless communications for URLLC services, including
device-to-device communication, multi-connectivity, and more
Ultra-Reliable and Low-Latency Communications (URLLC) Theory and
Practice discusses the typical scenarios, possible solutions, and
state-of-the-art techniques that enable URLLC in different
perspectives from the physical layer to higher-level approaches,
aiming to tackle URLLC’s challenges with both theoretical and
practical approaches, which bridges the lacuna between theory and
practice. With long-term contributions to the development of future
wireless networks, the text systematically presents a thorough
study of the novel and innovative paradigm of URLLC; basic
requirements are covered, along with essential definitions,
state-of-the-art technologies, and promising research directions of
URLLC. To aid in reader comprehension, tables, figures, design
schematics, and examples are provided to illustrate abstract
engineering concepts and make the text more accessible to a broader
readership, and corresponding case studies are included in the last
part of the book. Fundamental problems in URLLC, including
designing building blocks for URLLC, radio resource management in
URLLC, resource optimization, network availability guarantee, and
coexisting with other future mobile networks, are also discussed.
In Ultra-Reliable and Low-Latency Communications (URLLC) Theory and
Practice, readers can expect to find detailed information on: BCH
and analog codes, stable matching, OFDM demodulation and turbo
coding, and semi-blind receivers for URLLC MIMO-NOMA with URLLC,
PHY and MAC layer technologies for URLLC, and Network slicing or
SDN for URLLC and eMBB Integrating theoretical knowledge into deep
learning for URLLC, Energy-Latency tradeoff in URLLC, and Downlink
transmission for URLLC under physical layer aspects Resource
allocation for multi-user downlink URLLC, HARQ optimization for 5G
URLLC, and Multi-Access edge computing with URLLC A unique resource
with comprehensive yet accessible coverage of a complicated
subject, Ultra-Reliable and Low-Latency Communications (URLLC)
Theory and Practice is an ideal resource for a large and diverse
population of researchers and practitioners in engineering,
computer scientists, and senior undergraduate and graduate students
in related programs of study.
There is no doubt that we are facing a wireless data explosion.
Modern wireless networks need to satisfy increasing demand, but are
faced with challenges such as limited spectrum, expensive
resources, green communication requirements and security issues. In
the age of internet of things (IoT) with massive data transfers and
huge numbers of connected devices, including high-demand QoS (4G,
5G networks and beyond), signal processing is producing data sets
at the gigabyte and terabyte scales. Modest-sized optimisation
problems can be handled by online algorithms with fast speed
processing and a huge amount of computer memory. With the rapid
increase in powerful computers, more efficient algorithms and
advanced parallel computing promise an enormous reduction in
calculation time, solving modern optimisation problems on strict
deadlines at microsecond or millisecond time scales. Finally, the
interplay between machine learning and optimisation is an efficient
and practical approach to optimisation in real-time applications.
Real-time optimisation is becoming a reality in signal processing
and wireless networks. This book considers advanced real-time
optimisation methods for 5G and beyond networks. The authors
discuss the fundamentals, technologies, practical questions and
challenges around real-time optimisation of 5G and beyond
communications, providing insights into relevant theories, models
and techniques. The book should benefit a wide audience of
researchers, practitioners, scientists, professors and advanced
students in engineering, computer science, ubiquitous computing,
information technology, and networking and communications
engineering, as well as professionals in government agencies.
Physical layer security is emerging as a promising means of
ensuring secrecy in wireless communications. The key idea is to
exploit the characteristics of wireless channels such as fading or
noise to transmit a message from the source to the intended
receiver while keeping this message confidential from
eavesdroppers. Topics covered in Trusted Communications with
Physical Layer Security for 5G and Beyond include secrecy metrics
for physical layer security over fading channels; trusted wireless
communications with spatial multiplexing; directional modulation
enabled physical layer wireless security; secure waveform for 5G
systems; confidential and energy efficient communications using
physical layer security; secure data networks with channel
uncertainty; antenna selection strategies for wiretap channels;
physical layer security for massive MIMO systems, millimeter wave
cellular networks, non-orthogonal multiple access, multiuser relay
networks, cognitive radio networks, MIMOME-OFDM systems; wirelessly
powered communication systems and D2D-enabled cellular networks;
and security solutions and applications at the physical layer,
including case studies of secret key generation and secrecy coding
in communication nodes and terminals.
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