Traffic Analysis and Design of Wireless Ip Networks (Artech House Mobile Communications Series)

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Traffic Analysis and Design of Wireless Ip Networks (Artech House Mobile Communications Series)

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  • 製本 Hardcover:ハードカバー版/ページ数 390 p.
  • 言語 ENG
  • 商品コード 9781580533317
  • DDC分類 621.38215

Table of Contents

Preface                                            xv
Introduction 1 (8)
Evolution Process 1 (1)
Why Wireless IP Networks? 2 (2)
Traffic Issues 4 (1)
Design Issues 5 (4)
Third Generation Wireless Mobile 9 (44)
Communications and Beyond
Introduction 9 (2)
Evolution of Wireless Communication 11 (1)
Second Generation Mobile Networks 12 (4)
GSM---State of the Art 15 (1)
Evolution from 2G to 3G 16 (4)
HSCSD 17 (1)
GPRS---Tracing the Way to Mobile 17 (2)
Internet
EDGE 19 (1)
Third Generation Mobile Networks 20 (15)
Standardization 20 (2)
UMTS 22 (6)
WCDMA 28 (3)
TD-CDMA 31 (1)
cdma2000 32 (3)
Third Generation Mobile Applications and 35 (9)
Services
New Killer Applications 38 (3)
Real-Time Services 41 (2)
Nonreal-Time Services 43 (1)
Future Wireless Communication Networks 44 (5)
Beyond 3G
All-IP Mobile Network 47 (2)
Discussion 49 (4)
References 49 (4)
Wireless Mobile Internet 53 (38)
Introduction 53 (1)
IP 54 (3)
IPv4 54 (2)
IP Version 6 56 (1)
Transport Control of IP Packets 57 (6)
TCP Mechanisms 58 (3)
TCP Implementations 61 (1)
Stream Control Transmission Protocol 62 (1)
QoS Provisioning in the Internet 63 (10)
MPLS 64 (2)
Integrated Services 66 (3)
Differentiated Services 69 (4)
Introduction of Mobility to the Internet 73 (10)
Mobile IP Protocol 74 (2)
Micromobility 76 (7)
QoS Specifics of Wireless Networks 83 (3)
Cellular Topology 83 (1)
Mobility 83 (2)
BER in the Wireless Link 85 (1)
Discussion 86 (5)
References 87 (4)
Teletraffic Theory 91 (44)
Introduction 91 (1)
Some Important Random Processes 92 (4)
Discrete Markov Chains 96 (4)
The Birth-Death Process 100(6)
Stationary System 104(2)
Birth-Death Queuing Systems in 106(1)
Equilibrium
Teletraffic Theory for Loss Systems with 106(5)
Full Accessibility
Teletraffic Theory for Loss Systems with 111(15)
Multiple Traffic Types
Loss Systems with Integrated Traffic 112(2)
Phase-Type Distributions 114(3)
Multidimensional Erlang Formula 117(3)
Priority Queuing 120(3)
Error Control Impact on Traffic 123(3)
Teletraffic Modeling of Wireless Networks 126(3)
Principles of Dimensioning 129(3)
Discussion 132(3)
References 133(2)
Characterization and Classification of IP 135(32)
Traffic
Introduction 135(1)
Characterization of IP Traffic 136(3)
Aggregate Internet Traffic 136(1)
Internet Traffic Components 137(2)
QoS Classification of IP Traffic 139(4)
Statistical Characteristics 143(21)
Nature of IP Traffic 144(5)
Self-Similar Processes 149(3)
Statistical Analysis of Nonreal-Time 152(3)
Traffic
Statistical Analysis of Real-Time 155(3)
Services
Genesis of IP-Traffic Self-Similarity 158(6)
Discussion 164(3)
References 164(3)
Architecture for Mobile IP Networks with 167(32)
Multiple Traffic Classes
Introduction 167(1)
Architecture of Wireless IP Networks with 168(3)
Integrated Services
Network Architecture 169(1)
Integrated Simulation Architecture 170(1)
Conceptual Model of Network Nodes 171(5)
Scheduling Schemes 173(3)
Simulation Architecture for Performance 176(1)
Analysis
Wireless Link Model 177(2)
Traffic Modeling 179(7)
Call-Level Traffic Modeling 179(1)
Packet-Level Traffic Modeling 180(6)
Mobility Modeling 186(4)
Macromobility Model 187(3)
Micromobility Model 190(1)
Performance Parameters 190(5)
QoS Parameters on Call-Level 190(2)
QoS Parameters on Packet-Level 192(1)
Capacity 193(2)
Discussion 195(4)
References 196(3)
Analytical Analysis of Multimedia Mobile 199(40)
Networks
Introduction 199(1)
Analysis of Mobile Networks with Single 200(4)
Traffic Class
Analytical Modeling 200(4)
Analysis of Multimedia Mobile Networks 204(4)
with Deterministic Resource Reservation
Analysis of Multimedia Mobile Networks 208(9)
with Statistical Local Admission Control
Efficiency of the Mobile Network 211(4)
Optimization of Mobile Networks 215(2)
Traffic Loss Analysis in Multiclass 217(9)
Mobile Networks
Application of Multidimensional 217(3)
Erlang-B Formula in Mobile Networks
Multirate Traffic Analysis 220(6)
Traffic Analysis of CDMA Networks 226(10)
Capacity Analysis of CDMA Network 227(6)
Calculation of the Soft Capacity 233(1)
Numerical Analysis 234(2)
Discussion 236(3)
References 237(2)
Admission Control with QoS Support in 239(32)
Wireless IP Networks
Introduction 239(1)
System Model 240(2)
Hybrid Admission Control 242(2)
Hybrid Admission Control Algorithm 242(2)
Analytical Frame of HAC 244(9)
Optimal Thresholds in HAC Algorithm 253(2)
Analysis of the Admission Control in 255(5)
Wireless Networks
Admission Control in Wireless CDMA 260(7)
Networks
SIR-Based Admission Control 261(1)
Load-Based Admission Control 262(1)
Power-Based Admission Control 263(2)
Power Control 265(1)
Performance Measures for CDMA Systems 265(1)
Congestion Control 266(1)
Hybrid Admission Control Algorithm for 266(1)
Multiclass CDMA Networks
Discussion 267(4)
References 268(3)
Performance Analysis of Cellular IP Networks 271(28)
Introduction 271(1)
Service Differentiation in Cellular 272(2)
Packet Networks
Handover in Cellular Networks 274(5)
Handover in Cellular Packet Networks 274(1)
Handover Mechanisms 275(2)
Analysis of Packet Losses at Handover 277(2)
Network Model 279(1)
Simulation Analysis in Wireless IP 280(15)
Networks
Handover Loss Analysis for CBR Flows 280(4)
Handover Loss Analysis for VBR Flows 284(6)
Handover Loss Analysis for Best-Effort 290(3)
Flows
Performance Analysis of Different 293(2)
Traffic Types Under Location-Dependent
Bit Errors
Discussion 295(4)
References 296(3)
Handover Agents for QoS Support 299(24)
Introduction 299(1)
Handover Agent Algorithm for Wireless IP 300(5)
Networks
Who May Initiate a Handover? 300(1)
Handover Types on a Link Layer 301(1)
Handover Agents 302(3)
Routing in the Wireless Access Network 305(5)
Location Control and Paging 310(2)
Discovery of the Crossover Node 312(2)
Crossover Node Discovery for B Flows 312(1)
Crossover Node Discovery for A Flows 313(1)
Performance Analysis of the Handover 314(5)
Agent Scheme
Discussion 319(4)
References 320(3)
QoS Provisioning in Wireless IP Networks 323(28)
Through Class-Based Queuing
Introduction 323(2)
Wireless Network and Channel Model 325(1)
Design of Wireless Scheduling Algorithms 326(8)
Wireline and Wireless Fluid Fair Queuing 326(2)
WFQ Algorithms 328(3)
Service Differentiation Applied to 331(3)
Existing Systems
Wireless Class-Based Flexible Queuing 334(9)
Class Differentiation 334(4)
Scheduling in an Error State 338(4)
Characteristics of WCBFQ 342(1)
Simulation Analysis 343(4)
Discussion 347(4)
References 348(3)
Conclusions 351(4)
About the Author 355(2)
Index 357