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Part Two: "General-Purpose" Mobility Models
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Part Two: "General-Purpose" Mobility Models
by Paolo Santi
Mobility Models for Next Generation Wireless Networks
Cover
Series Page
Title Page
Copyright
Dedication
List of Figures
List of Tables
About the Author
Preface
Audience
Book Overview
How To Use This Book
Acknowledgments
Part One: Introduction
Chapter 1: Next Generation Wireless Networks
1.1 WLAN and Mesh Networks
1.2 Ad Hoc Networks
1.3 Vehicular Networks
1.4 Wireless Sensor Networks
1.5 Opportunistic Networks
References
Chapter 2: Modeling Next Generation Wireless Networks
2.1 Radio Channel Models
2.2 The Communication Graph
2.3 The Energy Model
References
Chapter 3: Mobility Models for Next Generation Wireless Networks
3.1 Motivation
3.2 Cellular vs. Next Generation Wireless Network Mobility Models
3.3 A Taxonomy of Existing Mobility Models
3.4 Mobility Models and Real-World Traces: The CRAWDAD Resource
3.5 Basic Definitions
References
Part Two: "General-Purpose" Mobility Models
Chapter 4: Random Walk Models
4.1 Discrete Random Walks
4.2 Continuous Random Walks
4.3 Other Random Walk Models
4.4 Theoretical Properties of Random Walk Models
References
Chapter 5: The Random Waypoint Model
5.1 The RWP Model
5.2 The Node Spatial Distribution of the RWP Model
5.3 The Average Nodal Speed of the RWP Model
5.4 Variants of the RWP Model
References
Chapter 6: Group Mobility and Other Synthetic Mobility Models
6.1 The RPGM Model
6.2 Other Synthetic Mobility Models
References
Chapter 7: Random Trip Models
7.1 The Class of Random Trip Models
7.2 Stationarity of Random Trip Models
7.3 Examples of Random Trip Models
References
Part Three: Mobility Models for WLAN and Mesh Networks
Chapter 8: WLAN and Mesh Networks
8.1 WLAN and Mesh Networks: State of the Art
8.2 WLAN and Mesh Networks: User Scenarios
8.3 WLAN and Mesh Networks: Perspectives
8.4 Further Reading
References
Chapter 9: Real-World WLAN Mobility
9.1 Real-World WLAN Traces
9.2 Features of WLAN Mobility
References
Chapter 10: WLAN Mobility Models
10.1 The LH Mobility Model
10.2 The KKK Mobility Model
10.3 Final Considerations and Further Reading
References
Part Four: Mobility Models for Vehicular Networks
Chapter 11: Vehicular Networks
11.1 Vehicular Networks: State of the Art
11.2 Vehicular Networks: User Scenarios
11.3 Vehicular Networks: Perspectives
11.4 Further Reading
References
Chapter 12: Vehicular Networks: Macroscopic and Microscopic Mobility Models
12.1 Vehicular Mobility Models: The Macroscopic View
12.2 Vehicular Mobility Models: The Microscopic View
12.3 Further Reading
References
Chapter 13: Microscopic Vehicular Mobility Models
13.1 Simple Microscopic Mobility Models
13.2 The SUMO Mobility Model
13.3 Integrating Vehicular Mobility and Wireless Network Simulation
References
Part Five: Mobility Models for Wireless Sensor Networks
Chapter 14: Wireless Sensor Networks
14.1 Wireless Sensor Networks: State of the Art
14.2 Wireless Sensor Networks: User Scenarios
14.3 WSNs: Perspectives
14.4 Further Reading
References
Chapter 15: Wireless Sensor Networks: Passive Mobility Models
15.1 Passive Mobility in WSNs
15.2 Mobility Models for Wildlife Tracking Applications
15.3 Modeling Movement Caused by External Forces
References
Chapter 16: Wireless Sensor Networks: Active Mobility Models
16.1 Active Mobility of Sensor Nodes
16.2 Active Mobility of Sink Nodes
References
Part Six: Mobility Models for Opportunistic Networks
Chapter 17: Opportunistic Networks
17.1 Opportunistic Networks: State of the Art
17.2 Opportunistic Networks: User Scenarios
17.3 Opportunistic Networks: Perspectives
17.4 Further Reading
References
Chapter 18: Routing in Opportunistic Networks
18.1 Mobility-Assisted Routing in Opportunistic Networks
18.2 Opportunistic Network Mobility Metrics
References
Chapter 19: Mobile Social Network Analysis
19.1 The Social Network Graph
19.2 Centrality and Clustering Metrics
19.3 Characterizations of Human Mobility
19.4 Further Reading
References
Chapter 20: Social-Based Mobility Models
20.1 The Weighted Random Waypoint Mobility Model
20.2 The Time-Variant Community Mobility Model
20.3 The Community-Based Mobility Model
20.4 The SWIM Mobility Model
20.5 The Self-Similar Least Action Walk Model
20.6 The Home-MEG Model
20.7 Further Reading
References
Part Seven: Case Studies
Chapter 21: Random Waypoint Model and Wireless Network Simulation
21.1 RWP Model and Simulation Accuracy
21.2 Removing the Border Effect
21.3 Removing Speed Decay
21.4 The RWP Model and “Perfect Simulation”
References
Chapter 22: Mobility Modeling and Opportunistic Network Performance Analysis
22.1 Unicast in Opportunistic Networks
22.2 Broadcast in Opportunistic Networks
References
Appendix A: Elements of Probability Theory
A.1 Basic Notions of Probability Theory
A.2 Probability Distributions
A.3 Markov Chains
References
Appendix B: Elements of Graph Theory, Asymptotic Notation, and Miscellaneous Notions
B.1 Asymptotic Notation
B.2 Elements of Graph Theory
B.3 Miscellaneous Notions
References
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“General-Purpose” Mobility Models
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