无线移动通信系统
作 者:(美)阿格拉沃尔(Dharma Prakash Agrawal),(美)曾庆安 著;谭明新 改编
定 价:89
出 版 社:电子工业出版社
出版日期:2016年04月01日
页 数:422
装 帧:平装
ISBN:9787121285134
本书系统、全面地介绍了无线移动通信的基本理论,分析了无线移动通信所涉及的各个主题,包括无线移动信号的传输、蜂窝的基本概念、多路无线接入、多址技术、调制技术、信道分配技术、通信系统的设计、网络协议、现有的蜂窝系统、IEEE 802系列技术、Ad Hoc网络与传感器网络、无线网络的安全性与隐私问题、卫星通信系统等。为了加强对书中概念的理解,各章还给出了开拓思维的实验。
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 25
1.8 Sensor Networks 26
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 Mobile Radio Propagation
2.1 Introduction
2.2 Types of Radio Waves
2.3 Propagation Mechanisms
2.4 Free Space Propagation
2.5 Land Propagation
2.6 Path Loss
2.7 Slow Fading
2.8 Fast Fading
2.8.1 Statistical Characteristics of the Envelope
2.8.2 Characteristics of Instantaneous Amplitude
2.9 Doppler Effect
2.10 Delay Spread
2.11 Intersymbol Interference
2.12 Coherence Bandwidth
2.13 Cochannel Interference
2.14 Summary
2.15 References
2.16 Experiments
2.17 Open-Ended Projects
2.18 Problems
Chapter 3 Cellular Concept
3.1 Introduction
3.2 Cell Area
3.3 Signal Strength and Cell Parameters
3.4 Capacity of a Cell
3.5 Frequency Reuse
3.6 How to Form a Cluster
3.7 Cochannel Interference
3.8 Cell Splitting
3.9 Cell Sectoring
3.10 Summary
3.11 References
3.12 Experiments
3.13 Open-Ended Projects
3.14 Problems
Chapter 4 Multiple Radio Access
4.1 Introduction
4.2 Multiple Radio Access Protocols
4.3 Contention-Based Protocols
4.3.1 Pure ALOHA
4.3.2 Slotted ALOHA
4.3.3 CSMA
4.3.4 CSMA/CD
4.3.5 CSMA/CA
4.4 Comparison of CSMA/CD and CSMA/CA
4.5 Summary
4.6 References
4.7 Experiments
4.8 Open-Ended Projects
4.9 Problems
Chapter 5 Multiple Division Techniques
5.1 Introduction
5.2 Concepts and Models for Multiple Divisions
5.2.1 FDMA
5.2.2 TDMA
5.2.3 CDMA
5.2.4 OFDM
5.2.5 SDMA
5.2.6 Comparison of Multiple Division Techniques
5.3 Modulation Techniques
5.3.1 Amplitude Modulation(AM)
5.3.2 Frequency Modulation(FM)
5.3.3 FSK
5.3.4 Phase Shift Keying(PSK)
5.3.5 Quadrature Phase Shift Keying(QPSK)
5.3.6 π/4QPSK
5.3.7 Quadrature Amplitude Modulation(QAM)
5.3.8 16QAM
5.4 Summary
5.5 References
5.6 Experiments
5.7 Open-Ended Projects
5.8 Problems
Chapter 6 Channel Allocation
6.1 Introduction
6.2 Static Allocation versus Dynamic Allocation
6.3 Fixed Channel Allocation(FCA)
6.3.1 Simple Borrowing Schemes
6.3.2 Complex Borrowing Schemes
6.4 Dynamic Channel Allocation(DCA)
6.4.1 Centralized Dynamic Channel Allocation Schemes
6.4.2 Distributed Dynamic Channel Allocation Schemes
6.5 Hybrid Channel Allocation(HCA)
6.5.1 Hybrid Channel Allocation(HCA) Schemes
6.5.2 Flexible Channel Allocation Schemes
6.6 Allocation in Specialized System Structure
6.6.1 Channel Allocation in One-Dimensional Systems
6.6.2 Reuse Partitioning-Based Channel Allocation
6.6.3 Overlapped Cells?Based Channel Allocation
6.7 System Modeling
6.7.1 Basic Modeling
6.7.2 Modeling for Channel Reservation
6.8 Summary
6.9 References
6.10 Experiments
6.11 Open-Ended Projects
6.12 Problems
Chapter 7 Mobile Communication Systems
7.1 Introduction
7.2 Cellular System Infrastructure
7.3 Registration
7.4 Handoff Parameters and Underlying Support
7.4.1 Parameters Influencing Handoff
7.4.2 Handoff Underlying Support
7.5 Roaming Support
7.5.1 Home Agents,Foreign Agents,and Mobile IP
7.5.2 Rerouting in Backbone Routers
7.6 Multicasting
7.7 Ultra-Wideband Technology
7.7.1 UWB System Characteristics
7.7.2 UWB Signal Propagation
7.7.3 Current Status and Applications of UWB Technology
7.7.4 Difference between UWB and Spread Spectrum Techniques
7.7.5 UWB Technology Advantages
7.7.6 UWB Technology Drawbacks
7.7.7 Challenges for UWB Technology
7.7.8 Future Directions
7.8 Femto Cell Network
7.8.1 Technical Features
7.8.2 Challenges
7.9 Summary
7.10 References
7.11 Experiments
7.12 Open-Ended Problem
7.13 Problems
Chapter 8 Network Protocols
8.1 Introduction
8.1.1 Layer 1:Physical Layer
8.1.2 Layer 2:Data Link Layer
8.1.3 Layer 3:Network Layer
8.1.4 Layer 4:Transport Layer
8.1.5 Layer 5:Session Layer
8.1.6 Layer 6:Presentation Layer
8.1.7 Layer 7:Application Layer
8.2 TCP/IP Protocol
8.2.1 Physical and Data Link Layers
8.2.2 Network Layer
8.2.3 TCP
8.2.4 Application Layer
8.2.5 Routing Using Bellman-Ford Algorithm
8.3 TCP over Wireless
8.3.1 Need for TCP over Wireless
8.3.2 Limitations of Wired Version of TCP
8.3.3 Solutions for Wireless Environment
8.3.4 Link Layer Protocols
8.4 Internet Protocol Version 6(IPv6)
8.4.1 Transition from IPv4 to IPv6
8.4.2 IPv6 Header Format
8.4.3 Features of IPv6
8.4.4 Differences between IPv6 and IPv4
8.5 Summary
8.6 References
8.7 Experiment
8.8 Open-Ended Project
8.9 Problems
Chapter 9 Existing Wireless Systems
9.1 Introduction
9.2 AMPS
9.2.1 Characteristics of AMPS
9.2.2 Operation of AMPS
9.2.3 General Working of AMPS Phone System
9.3 IS-41
9.3.1 Introduction
9.3.2 Support Operations
9.4 GSM
9.4.1 Frequency Bands and Channels
9.4.2 Frames in GSM
9.4.3 Identity Numbers Used by a GSM System
9.4.4 Interfaces,Planes,and Layers of GSM
9.4.5 Handoff
9.4.6 Short Message Service(SMS)
9.5 IS-95
9.5.1 Power Control
9.6 IMT-2000
9.6.1 International Spectrum Allocation
9.6.2 Services Provided by Third-Generation Cellular Systems(3G)
9.6.3 Harmonized Third-Generation Systems
9.6.4 Multimedia Messaging Service(MMS)
9.6.5 Universal Mobile Telecommunications System(UMTS)
9.7 Summary
9.8 References
9.9 Problems
Chapter 10 IEEE 802.11 Technologies and Access Points
10.1 Introduction
10.2 Downlink Transfer of Information
10.3 Uplink Transfer of Information
10.3.1 Uplink Transfer of Information with RTS/CTS
10.4 Variants of 802.11 Series Protocols
10.4.1 IEEE 802.11b
10.4.2 IEEE 802.11g
10.4.3 IEEE 802.11n
10.4.4 IEEE 802.11ac
10.5 WiFi Access in Airplanes
10.6 Summary
10.7 References
10.8 Experiment
10.9 Open-Ended Project
10.10 Problems
Chapter 11 Ad Hoc Networks
11.1 Introduction
11.2 Characteristics of MANETs
11.3 Applications
11.4 Routing
11.4.1 Need for Routing
11.4.2 Routing Classification
11.5 Table-Driven Routing Protocols
11.5.1 Destination-Sequenced Distance-Vector Routing
11.5.2 Cluster Formation in a MANET
11.5.3 Cluster Head Selection
11.5.4 Cluster Head Gateway Switch Routing
11.5.5 Wireless Routing Protocol
11.6 Source-Initiated On-Demand Routing
11.6.1 Ad Hoc On-Demand Distance Vector Routing
11.6.2 Dynamic Source Routing
11.6.3 Temporarily Ordered Routing Algorithm(TORA)
11.6.4 Associativity-Based Routing
11.6.5 Signal Stability-Based Routing
11.7 Hybrid Protocols
11.7.1 Zone Routing
11.7.2 Fisheye State Routing
11.7.3 Landmark Routing(LANMAR) for MANET with Group Mobility
11.7.4 Location-Aided Routing
11.7.5 Distance Routing Effect Algorithm for Mobility
11.7.6 Relative Distance Microdiscovery Ad Hoc Routing(RDMAR)
11.7.7 Power Aware Routing
11.8 Multipath Routing Protocols
11.8.1 On-Demand Multipath Routing for Mobile Ad Hoc Networks
11.8.2 Ad Hoc On-Demand Distance Vector-Backup Routing(AODV-BR)
11.8.3 Split Multipath Routing
11.8.4 Caching and Multipath Routing Protocol
11.8.5 Neighbor-Table-Based Multipath Routing in Ad Hoc Networks(NTBMR)
11.9 Vehicular Area Network(VANET)
11.10 Network Simulators
11.10.1 ns-2 and ns-3
11.10.2 Other Network Simulators
11.11 Summary
11.12 References
11.13 Experiments
11.14 Open-Ended Project
11.15 Problems
Chapter 12 Sensor Networks
12.1 Introduction
12.2 Network Characteristics
12.2.1 Classification of Sensor Networks
12.2.2 Fundamentals of MAC Protocol for WSNs
12.2.3 Flat Routing in Sensor Networks
12.2.4 Directed Diffusion
12.2.5 Sensor Protocols for Information via Negotiation(SPIN)
12.2.6 COUGAR
12.3 Hierarchical Routing in Sensor Networks
12.3.1 Cluster-Based Routing Protocol(CBRP)
12.3.2 Low-Energy Adaptive Clustering Hierarchy(LEACH)
12.3.3 Threshold-Sensitive Energy-Efficient Network(TEEN)
12.3.4 Adaptive Periodic Threshold-Sensitive Energy-Efficient Sensor Network(APTEEN) Protocol
Chapter 13 Wireless LANs,PANs,BANs,and MANs
13.1 Introduction
13.2 ETSI High-Performance LAN(HiperLAN)
13.3 HomeRF
13.4 Ricochet
13.5 Wireless Personal Area Networks(WPANs)
13.6 IEEE 802.15.1(Bluetooth)
13.6.1 Architecture of the Bluetooth System
13.6.2 IEEE 802.15.3
13.6.3 IEEE 802.15.4
13.7 ZigBee
13.8 Wireless Body Area Networks(WBANs)
13.9 WMANs Using Worldwide Interoperability for Microwave Access(WiMAX)
13.9.1 MAC Layer
13.9.2 MAC Layer Details
13.9.3 Service-Specific Convergence Sublayers
13.9.4 Common Part Sublayer
13.9.5 Physical Layer
13.9.6 Physical Layer Details
13.10 WMAN Using a Mesh Network
13.11 WMANs using 3GPP and Long Term Evolution(LTE)
13.12 WMAN Using Long Term Evolution(LTE) and LTE-A
13.13 Summary
13.14 References
13.15 Experiments
13.16 Open-Ended Project
13.17 Problems
Chapter 14 Security and Privacy in Wireless Networks
14.1 Introduction
14.2 Encryption and Decryption Techniques
14.2.1 Encryption Techniques
14.3 Wireless System Security
14.3.1 Security in Cell Phones
14.3.2 Security in LTE Networks
14.3.3 Authentication in WiFi-based AP Networks
14.3.4 Diffie-Hellman Protocol
14.3.5 Elliptic Curve Cryptography(ECC)
14.4 Firewalls and System Security
14.5 Security Issues in Mobile Ad Hoc Networks(MANETs)
14.5.1 Security Approaches
14.5.2 Intrusion Detection
14.5.3 Requirements for an IDS for MANETs
14.5.4 Mobile Agents for Intrusion Detection and Response in a MANET
14.5.5 Intrusion Detection Architecture(IDA) Based on a Static Stationary Database(SSD)
14.5.6 Cluster-Based Intrusion Detection System in MANETs
14.5.7 Logging Module
14.5.8 Selfishness in a MANET
14.6 Secured Communication in Wireless Sensor Networks(WSNs)
14.6.1 Shared Symmetric Key between Two Sensors in a Randomly Deployed WSN
14.6.2 Use of Bivariate Polynomial in Establishing a Shared Secret Key between Two Sensors
14.6.3 Intrusion Detection Schemes
14.7 Distributed DoS(DDoS) Attack Detection
14.7.1 Covariance Analysis Method
14.8 Summary
14.9 References
14.10 Experiments
14.11 Open-Ended Project
14.12 Problems
Chapter 15 Satellite Systems
15.1 Introduction
15.2 Types of Satellite Systems
15.3 Characteristics of Satellite Systems
15.4 Satellite System Infrastructure
Acronyms