Introduction to Wireless and Mobile Systems

✍ Scribed by Dharma P. Agrawal, Qing-An Zeng

Publisher: Cengage Learning
Year: 2015
Tongue: English
Leaves: 626
Edition: 4
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

Learn how wireless systems work, how mobility is supported, what the underlying infrastructure is and what interactions are needed among different functional components with INTRODUCTION TO WIRELESS AND MOBILE SYSTEMS, 4e. Focusing on qualitative descriptions and the realistic explanations of relationships between wireless systems and performance parameters, this user-friendly book helps you learn this exciting technology through relevant examples, such as understanding how a cell phone starts working as soon as they get out of an airplane.

✦ Table of Contents

Cover
Dedication
About the Authors
Contents
Preface to the Fourth Edition
Preface to the Third Edition
Preface to the Second Edition
Preface to the First Edition
Acknowledgments
Chapter 1: Introduction
1.1 History of Cellular Systems
1.2 Characteristics of Cellular Systems
1.3 Fundamentals of Cellular Systems
1.4 Cellular System Infrastructure
1.5 Network Protocols
1.6 IEEE 802.11 Technologies
1.7 Ad Hoc Networks
1.8 Sensor Networks
1.9 Wireless MANs, LANs, BANs, and PANs
1.10 Security and Privacy in Wireless Networks
1.11 Satellite Systems
1.12 Recent Advances
1.13 Outline of the Book
1.14 References
1.15 Problems
Chapter 2: Probability, Statistics, and Traffic Theories
2.1 Introduction
2.2 Basic Probability and Statistics Theories
2.3 Traffic Theory
2.4 Basic Queuing Systems
2.5 Summary
2.6 References
2.7 Problems
Chapter 3: Mobile Radio Propagation
3.1 Introduction
3.2 Types of Radio Waves
3.3 Propagation Mechanisms
3.4 Free Space Propagation
3.5 Land Propagation
3.6 Path Loss
3.7 Slow Fading
3.8 Fast Fading
3.9 Doppler Effect
3.10 Delay Spread
3.11 Intersymbol Interference
3.12 Coherence Bandwidth
3.13 Cochannel Interference
3.14 Summary
3.15 References
3.16 Experiments
3.17 Open-Ended Projects
3.18 Problems
Chapter 4: Channel Coding and Error Control
4.1 Introduction
4.2 Linear Block Codes
4.3 Cyclic Codes
4.4 Cyclic Redundancy Check (CRC)
4.5 Convolutional Codes
4.6 Interleaver
4.7 Turbo Codes
4.8 ARQ Techniques
4.9 Summary
4.10 References
4.11 Experiments
4.12 Open-Ended Projects
4.13 Problems
Chapter 5: Cellular Concept
5.1 Introduction
5.2 Cell Area
5.3 Signal Strength and Cell Parameters
5.4 Capacity of a Cell
5.5 Frequency Reuse
5.6 How to Form a Cluster
5.7 Cochannel Interference
5.8 Cell Splitting
5.9 Cell Sectoring
5.10 Summary
5.11 References
5.12 Experiments
5.13 Open-Ended Projects
5.14 Problems
Chapter 6: Multiple Radio Access
6.1 Introduction
6.2 Multiple Radio Access Protocols
6.3 Contention-Based Protocols
6.4 Comparison of CSMA/CD and CSMA/CA
6.5 Summary
6.6 References
6.7 Experiments
6.8 Open-Ended Projects
6.9 Problems
Chapter 7: Multiple Division Techniques
7.1 Introduction
7.2 Concepts and Models for Multiple Divisions
7.3 Modulation Techniques
7.4 Summary
7.5 References
7.6 Experiments
7.7 Open-Ended Projects
7.8 Problems
Chapter 8: Channel Allocation
8.1 Introduction
8.2 Static Allocation versus Dynamic Allocation
8.3 Fixed Channel Allocation (FCA)
8.4 Dynamic Channel Allocation (DCA)
8.5 Hybrid Channel Allocation (HCA)
8.7 System Modeling
8.8 Summary
8.9 References
8.10 Experiments
8.11 Open-Ended Projects
8.12 Problems
Chapter 9: Mobile Communication Systems
9.1 Introduction
9.2 Cellular System Infrastructure
9.3 Registration
9.4 Handoff Parameters and Underlying Support
9.5 Roaming Support
9.6 Multicasting
9.7 Ultra-Wideband Technology
9.8 Femto Cell Network
9.9 Summary
9.10 References
9.11 Experiments
9.12 Open-Ended Problem
9.13 Problems
Chapter 10: Network Protocols
10.1 Introduction
10.2 TCP/IP Protocol
10.3 TCP over Wireless
10.4 Internet Protocol Version 6 (IPv6)
10.5 Summary
10.6 References
10.7 Experiment
10.8 Open-Ended Project
10.9 Problems
Chapter 11: Existing Wireless Systems
11.1 Introduction
11.2 AMPS
11.3 IS-41
11.4 GSM
11.5 IS-95
11.6 IMT-2000
11.7 Summary
11.8 References
11.9 Problems
Chapter 12: IEEE 802.11 Technologies and Access Points
12.1 Introduction
12.2 Downlink Transfer of Information
12.3 Uplink Transfer of Information
12.4 Variants of 802.11 Series Protocols
12.5 WiFi Access in Airplanes
12.6 Summary
12.7 References
12.8 Experiment
12.9 Open-Ended Project
12.10 Problems
Chapter 13: Ad Hoc Networks
13.1 Introduction
13.2 Characteristics of MANETs
13.3 Applications
13.4 Routing
13.5 Table-Driven Routing Protocols
13.6 Source-Initiated On-Demand Routing
13.7 Hybrid Protocols
13.8 Multipath Routing Protocols
13.9 Vehicular Area Network (VANET)
13.10 Network Simulators
13.11 Summary
13.12 References
13.13 Experiments
13.14 Open-Ended Project
13.15 Problems
Chapter 14: Sensor Networks
14.1 Introduction
14.2 Adapting to the Inherent Dynamic Nature of Wireless Sensor Networks (WSNs)
14.3 Functional Units of WSNs
14.4 Sensing Area, Communication Range, and Sensor Placement
14.5 Randomly Deployed Sensor Networks
14.6 Placing Sensors at Fixed Locations
14.7 Network Characteristics
14.8 Hierarchical Routing in Sensor Networks
14.9 Design Issues in Sensor Networks
14.10 Summary
14.11 References
14.12 Experiments
14.13 Open-Ended Project
14.14 Problems
Chapter 15: Wireless LANs, PANs, BANs, and MANs
15.1 Introduction
15.2 ETSI High-Performance LAN (HiperLAN)
15.3 HomeRF
15.4 Ricochet
15.5 Wireless Personal Area Networks (WPANs)
15.6 IEEE 802.15.1 (Bluetooth)
15.7 ZigBee
15.8 Wireless Body Area Networks (WBANs)
15.9 WMANs Using Worldwide Interoperability for Microwave Access (WiMAX)
15.10 WMAN Using a Mesh Network
15.11 WMANs Using 3GPP and Long Term Evolution (LTE)
15.12 WMAN Using Long Term Evolution (LTE) and LTE-A
15.13 Summary
15.14 References
15.15 Experiments
15.16 Open-Ended Project
15.17 Problems
Chapter 16: Security and Privacy in Wireless Networks
16.1 Introduction
16.2 Encryption and Decryption Techniques
16.3 Wireless System Security
16.4 Firewalls and System Security
16.5 Security Issues in Mobile Ad Hoc Networks (MANETs)
16.6 Secured Communication in Wireless Sensor Networks (WSNs)
16.7 Distributed DoS (DDoS) Attack Detection
16.8 Summary
16.9 References
16.10 Experiments
16.11 Open-Ended Project
16.12 Problems
Chapter 17: Satellite Systems
17.1 Introduction
17.2 Types of Satellite Systems
17.3 Characteristics of Satellite Systems
17.4 Satellite System Infrastructure
17.5 Call Setup
17.6 Global Positioning System (GPS)
17.7 Advanced GPS (A-GPS) and Enhanced 911 (E 911)
17.8 Internet Access using Satellites
17.9 Summary
17.10 References
17.11 Experiment
17.12 Open-Ended Project
17.13 Problems
Chapter 18: Recent Advances in Wireless Technologies
18.1 Introduction
18.2 SIM Card
18.3 Push-To-Talk (PTT) Technology
18.4 RFID
18.5 Cognitive Radio (CR)
18.6 Mobility and Resource Management for Integrated Systems
18.7 Two-Tier Visual Sensor Network
18.8 Multimedia Services Requirements
18.9 Directional and Smart Antennas
18.10 Application of Coding in Wireless Multi-Hop Networks
18.11 Delay Tolerant and Mobile Opportunistic Network
18.12 Fifth Generation (5G) and Beyond
18.13 Low-Power Design
18.14 eXtensible Markup Language (XML)
18.15 Android, iOS, iPad, iPhone, and iPod
18.16 Internet of Things (IoT), Web of Things (WoT), and Social Networking
18.17 Summary
18.18 References
18.19 Open-Ended Problem
18.20 Problems
Appendix: Erlang B Table
Acronyms
Index

📜 SIMILAR VOLUMES

Introduction to Wireless and Mobile Syst

📁 Introduction to Wireless and Mobile Systems

✍ Dharma P. Agrawal, Qing-An Zeng 📂 Library 📅 2010 🏛 CL-Engineering 🌐 English

This text explains the general principles of how wireless systems work, how mobility is supported, what the underlying infrastructure is and what interactions are needed among different functional components. Designed as a textbook appropriate for undergraduate or graduate courses in Computer Scienc

Introduction to Wireless Local Loop: Bro

📁 Introduction to Wireless Local Loop: Broadband and Narrowband Systems (Artech House Mobile Communications Library.)

✍ William Webb 📂 Library 📅 2000 🌐 English

Featuring developing technologies, updated market forecasts, and current regulatory initiatives, this text aims to keep the reader at the forefront of emerging products, services and issues affecting the field of wireless local loop (WLL) technology. The second edition includes new chapters on WLL d

Introduction to Wireless Systems

📁 Introduction to Wireless Systems

✍ Frederick C. Berry, Bruce A. Black, Philip S. DiPiazza, Bruce A. Ferguson, David 📂 Library 📅 2008 🏛 Pearson Education Limited (US titles)/Prentice-Hal 🌐 English

This work promotes a systems-engineering perspective on the design and analysis of a wireless communication system. It teaches the basics of this area through the example of a cell phone system.

Introduction to Wireless Systems,

📁 Introduction to Wireless Systems,

✍ Black, Bruce A 📂 Library 📅 2008 🏛 Prentice Hall 🌐 English

Introduction to wireless systems

📁 Introduction to wireless systems

✍ Black, Bruce A 📂 Library 📅 2008 🏛 Prentice Hall PTR 🌐 English

This work promotes a systems-engineering perspective on the design and analysis of a wireless communication system. It teaches the basics of this area through the example of a cell phone system.

Introduction to Wireless Systems

📁 Introduction to Wireless Systems

✍ Bruce A. Black, Philip S. DiPiazza, Bruce A. Ferguson, David R. Voltmer, Frederi 📂 Library 📅 2008 🏛 Prentice Hall 🌐 English

A Coherent Systems View of Wireless and Cellular Network Design and Implementation Written for senior-level undergraduates, first-year graduate students, and junior technical professionals, Introduction to Wireless Systems offers a coherent systems view of the cruc