RIVER PUBLISHERS IS AN INTERNATIONAL PUBLISHER THAT PUBLISHES RESEARCH MONOGRAPHS, PROFESSIONAL BOOKS, HANDBOOKS, EDITED VOLUMES AND JOURNALS WITH FOCUS ON KEY RESEARCH AREAS WITHIN THE FIELDS OF SCIENCE, TECHNOLOGY AND MEDICINE (STM).

River Publishers Series in Communications Series

Advances in Broadband Communication and Networks

Hardback
September 2008
9788792329004
More details
  • Publisher
    River Publishers
  • Published
    22nd September 2008
  • ISBN 9788792329004
  • Language English
  • Pages 452 pp.
  • Size 6.125" x 9.25"
$133.00

Broadband communications has become the major focus for industries offering rich multimedia IP services in next generation networks. This book deals with the state-of-the-art and the underlying principles of key technologies which facilitate broadband telecommunications, including millimetre wave gigabit Ethernet, terahertz communication, multiple input multiple output (MIMO) technology, orthogonal frequency division multiplex (OFDM), ultra wideband (UWB), and the fourth generation (4G) network technologies. It illustrates the use of these technologies, including high resolution three-dimensional millimetre wave radar imaging and terahertz imaging techniques. Within the next few years, advancements in graphic rendering and the application of millimetre wave radar technology will enable high resolution radar surveillance and operators of industrial processes to control their machines and to navigate remotely even in poor visibility environments. The principles and performance of terahertz imaging are also demonstrated in this important book. The performance and success of emerging all-IP networks depend largely on the efficiency of broadband technologies, and this book provides the basis for 4G networks and explores key performance measures such as quality of service and handover between distributed networks (mobile and fixed). It also demonstrates the medical and biomedical applications of broadband wireless communications.

Preface, Acknowledgement, Editorial

• Millimetre Wave Imaging for Industrial Applications
• A 500-700 GHz System for exploring the THz Frequency Regime
• 190 GHz Millimetre-wave Imaging using MMIC-based Heterodyne Receivers
• W-BAND GAAS SCHOTTKY DIODE MMIC MIXERS FOR MULTI-GIGABIT WIRELESS COMMUNICATIONS
• Implementation of a Gigabit per Second Millimeter Wave Transceiver on CMOS
• Power Allocation for the MMSE Feedback Precoder on Multi-Antenna Broadcast Channels
• Selective Detection for MIMO-OFDM Transmission
• Ultra Wideband Systems ? A Research Overview
• Robust Integer Frequency Offset Estimation for OFDM System
• Experimental Comparison of Two Automotive Radars for use on an Autonomous Vehicle
• On the Range-Data Rate Performance of Outdoor UWB Communication
• A Network Controlled QoS Model over the 3GPP Evolved Packet Core
• Vertical Handoffs in Fourth Generation Wireless Networks
• Methodology and initial analysis results for development of non-invasive and hybrid driver drowsiness detection systems
• Using Spectral Analysis to Extract Frequency Components from Electroencephalography:
• Application for Fatigue Countermeasure in Train Drivers
• Risk and Vulnerability Assessment of Secure Autonomic Communication Networks
• Intelligent Techniques Based RF Based Human Localisation in Indoor Environment
• A tutorial on the New Higher Order Rotation Spreading Matrix for BSOFDM

Johnson I. Agbinya

Johnson I. Agbinya is at Melbourne Institute of Technology, Australia.

Oya Sevimli

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Sam Reisenfeld

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Saroj Lal

Saroj Lal

Selvakennedy Selvadurai

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Adel Al-Jumaily

Adel Al-Jumaily

Yonghui Li

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