Wireless Network Performance Enhancement via Directional Antennas: Models, Protocols, and Systems  book cover
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Wireless Network Performance Enhancement via Directional Antennas: Models, Protocols, and Systems




ISBN 9781498707534
Published December 1, 2015 by CRC Press
512 Pages - 273 B/W Illustrations

 
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Book Description

Directional antenna technologies have made significant advancements in the last decade. These advances have opened the door to many exciting new design opportunities for wireless networks to enhance quality of service (QoS), performance, and network capacity. In this book, experts from around the world present the latest research and development in wireless networks with directional antennas. Their contributed chapters provide detailed coverage of the models, algorithms, protocols, and applications of wireless networks with various types of directional antennas operating at different frequency bands.

Wireless Network Performance Enhancement via Directional Antennas: Models, Protocols, and Systems identifies several interesting research problems in this important field, providing an opportunity to learn about solid solutions to these issues. It also looks at a number of practical hardware designs for the deployment of next-generation antennas, as well as efficient network protocols for exploitation of directional communications.

The book is organized into six sections:

  • Directional Antennas – covers the hardware design of different types of antennas
  • Directional MAC – focuses on the principles of designing medium access control (MAC) protocols for directional networks
  • Millimeter Wave – explores different design aspects of millimeter wave (mm-Wave) systems, which operate in higher-frequency bands (such as 60 GHz)
  • MIMO – explains how to establish a multiple-input, multiple-output (MIMO) antenna system and describes how it operates in a cognitive radio network
  • Advanced Topics – looks at additional topics such as beamforming in cognitive radio networks, multicast algorithm development, network topology management for connectivity, and sensor network lifetime issues
  • Applications – illustrates some important applications, such as military networks and airborne networking, that benefit from directional networking designs

With this book, researchers and engineers will be well-equipped to advance the research and development in this important field. If you’re new to this field, you will find this book to be a valuable reference on basic directional networking principles, engineering design, and challenges.

Table of Contents

DIRECTIONAL ANTENNAS

Introduction: Switched/Steered Directional Antennas for Networking

Tan Ngo, Murali Tummala, and John McEachen

Design and Optimization of Wideband Log-Periodic Dipole Arrays under Requirements for High Gain, High Front-to-Back Ratio, Optimal Gain Flatness, and Low Side Lobe Level: The Application of Invasive Weed Optimization
Zaharias D. Zaharis, Pavlos I. Lazaridis, Christos Skeberis, George Mastorakis, Constandinos X. Mavromoustakis, Evangelos Pallis, Dimitrios I. Stratakis, and Thomas D. Xenos

DIRECTIONAL MAC

Discovery Strategies for a Directional Wake-Up Radio in Mobile Networks
Wen-Chan Shih, Raja Jurdak, David Abbott, Pai H. Chou, and Wen-Tsuen Chen

Medium Access Control for Wireless Networks with Directional Antennas
T. Owens Walker III, Murali Tummala, and John McEachen

IEEE 802.11ad Wireless Local Area Network and Its MAC Performance
David Tung Chong Wong, Francois Chin, Xiaoming Peng, and Qian Chen

MILLIMETER WAVE

MAC Layer Protocols for Wireless Networks with Directional Antennas
Muhammad Irfan Rafique

Millimeter-Wave Wireless Networks: A Medium Access Control Perspective
Shiwen Mao and Theodore (Ted) S. Rappaport

Directional MAC Protocols for 60 GHz Millimeter Wave WLANs
Kishor Chandra and R. Venkatesha Prasad

Performance Improvements of mm-Wave Wireless Personal Area Networks Using Beamforming and Beamswitching
Seokhyun Yoon

Applications of Directional Networking in Military Systems
Latha Kant, Ritu Chadha, and John Lee

MIMO

Design and Implementation of Directional Antenna-Based LOS-MIMO System for Gbps Wireless Backhaul
Xiang Chen, Xiujun Zhang, Shidong Zhou, Ming Zhao, and Jing Wang

MIMO and Cooperation in Cognitive Radio-Based Wireless Networks: State-of-the-Art and Perspectives
Abdelaali Chaoub

ADVANCED TOPICS

Directional Antennas and Beamforming for Cognitive Radio-Based Wireless Networks
Abdelaali Chaoub and Elhassane Ibn-Elhaj

Multicast Algorithm Design for Energy-Constrained Multihop Wireless Networks with Directional Antennas
Yi Shi, Y. Thomas Hou, Hanif D. Sherali, and Wenjing Lou

Connectivity of Large-Scale Wireless Networks with Directional Antennas
Chi-Kin Chau, Richard J. Gibbens, and Don Towsley

Bounds on the Lifetime of Wireless Sensor Networks with Lossy Links and Directional Antennas
Juan M. Alonso, Amanda Nordhamn, Simon Olofsson, and Thiemo Voigt

APPLICATIONS
Utilization of Directional Antennas in Flying Ad Hoc Networks: Challenges and Design Guidelines
Şamil Temel and Ilker Bekmezci

Military Networks Enabled by Directional Antennas
Jerry Sonnenberg, Keith Olds, Emil Svatik, and Dave Chester

Military Applications of Directional Mesh Networking
Todd Mcintyre, Marc J. Russon, Stephen M. Dudley, and Victor Wells

Collaborative and Opportunistic Content Dissemination via Directional Antennas
Yong Li, Wei Feng, Li Su, Xiang Chen, and Depeng Jin

The Evolution of Directional Networking Systems Architecture
Matthew Sherman

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Editor(s)

Biography

John D. Matyjas earned his PhD in electrical engineering from State University of New York at Buffalo in 2004. Currently, he is serving as the Connectivity & Dissemination Core Technical Competency Lead at the Air Force Research Laboratory (AFRL) in Rome, New York. His research interests include dynamic multiple-access communications and networking, spectrum mutability, statistical signal processing and optimization, and neural networks. He served on the IEEE Transactions on Wireless Communications Editorial Advisory Board from 2012-2014. Dr. Matyjas is the recipient of the 2012 IEEE R1 Technology Innovation Award, 2012 AFRL Harry Davis Award for "Excellence in Basic Research," and the 2010 IEEE International Communications Conference Best Paper Award. He is an IEEE senior member, chair of the IEEE Mohawk Valley Signal Processing Society, and member of Tau Beta Pi and Eta Kappa Nu.

Fei Hu is a professor in the Department of Electrical and Computer Engineering at The University of Alabama, Tuscaloosa. He earned his PhD at Tongji University (Shanghai, China) in the field of signal processing (1999), and at Clarkson University (New York) in electrical and computer engineering (2002). He has published over 200 journal/conference papers and books. Dr. Hu’s research has been supported by U.S. National Science Foundation, Cisco, Sprint, and other sources. His research expertise can be summarized as 3S: Security, Signals, Sensors: (1) Security: How to overcome different cyber attacks in a complex wireless or wired network. Dr. Hu’s recent research focuses on cyber-physical system security and medical security issues. (2) Signals: This mainly refers to intelligent signal processing, that is, using machine learning algorithms to process sensing signals in a smart way in order to extract patterns (i.e., pattern recognition). (3) Sensors: This includes microsensor design and wireless sensor networking issues.