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Table of contents
1 Introduction
1.1 Types of Wireless Networks
1.2 The Problem
1.2.1 Single-hopWireless Networks
1.2.2 Multi-hop Wireless Networks
1.2.3 Mobile Multi-hop Wireless Networks
1.3 Organization of this Thesis and Our Contributions
1.3.1 Part 1: Single-hopWireless Networks
1.3.2 Part 2: Multi-hop Wireless Networks
1.3.3 Part 3: Mobile Multi-hop Wireless Networks
2 Capacity ofWireless Networks
2.1 Capacity of Single-hopWireless Networks
2.2 Capacity of Multi-hopWireless Networks
2.3 Capacity of Wireless Networks with Multiple-Input-Multiple-Output Technology
2.4 Capacity-Delay Tradeoff in Mobile Multi-hop Wireless Networks
3 Medium Access Control Schemes in Wireless Networks
3.1 Models and Assumptions
3.1.1 Timing Model
3.1.2 Network Model
3.1.3 Propagation Model
3.1.4 Transmission Model
3.1.5 Node Model
3.2 Slotted ALOHA Scheme
3.2.1 High-Level Specification of the Scheme
3.2.2 Model for Analytical Evaluation
3.3 MAC Schemes Based on Exclusion Rules
3.3.1 High-Level Specification of the Schemes
3.3.2 Model for Analytical Evaluation
3.4 Grid Pattern Based Schemes
3.4.1 High-Level Specification of the Schemes
3.4.2 Model for Analytical Evaluation
I Single-hop Wireless Networks
4 Local Capacity inWireless Networks
4.1 Model and Assumptions
4.2 Slotted ALOHA Scheme
4.2.1 Reception Areas
4.2.2 Local Capacity
4.3 MAC Schemes Based on Exclusion Rules
4.3.1 Reception Areas
4.3.2 Local Capacity
4.4 Grid Pattern Based Schemes
4.4.1 Optimality of Grid Pattern Based Schemes
4.4.2 Reception Areas
4.4.3 Local Capacity
4.5 Evaluation and Results
4.5.1 Slotted ALOHA Scheme
4.5.2 MAC Schemes Based on Exclusion Rules
4.5.3 Grid Pattern Based Schemes
4.5.4 Summary of Results
4.6 Impact of Fading on Local Capacity
4.7 Conclusions
5 Local Capacity and Coverage in Cellular Networks
5.1 The Context
5.2 Model and Assumptions
5.3 Scheme to Incorporate K Additional Base Stations
5.3.1 Points of Maximum Capacity
5.3.2 Points of Minimum Interference
5.3.3 Delaunay Triangulation
5.3.4 Gradient Descent Method
5.3.5 Heuristics
5.4 Evaluation and Results
5.4.1 Summary of Results
5.5 Conclusions
II Multi-hop Wireless Networks
6 Transmission Range inWireless Networks
6.1 Model and Assumptions
6.2 Normalized Optimum Transmission Range
6.3 Slotted ALOHA Scheme
6.3.1 Evaluation of Transmission Range
6.4 Grid Pattern Based Schemes
6.4.1 Evaluation of Transmission Range
6.5 Evaluation and Results
6.5.1 Slotted ALOHA Scheme
6.5.2 Grid Pattern Based Schemes
6.5.3 Summary of Results
6.6 Asymptotic Analysis of Grid Pattern Based Schemes
6.6.1 With Respect to SIR Threshold
6.6.2 With Respect to Attenuation Coefficient
6.7 Conclusions
7 Throughput Capacity in Wireless Network
7.1 Model and Assumptions
7.2 Optimization Parameters of MAC Schemes
7.2.1 Slotted ALOHA Scheme
7.2.2 MAC Schemes Based on Exclusion Rules
7.2.3 Grid Pattern Based Schemes
7.3 Evaluation and Results
7.3.1 Optimization of the Throughput Capacity
7.3.2 Summary of Results
7.4 Conclusions
III Mobile Multi-hop Wireless Networks
8 Capacity-Delay Tradeoff in Wireless Networks
8.1 Model and Assumptions
8.2 The Constrained Relative Bearing Georouting Scheme
8.2.1 Parameters
8.2.2 High-Level Specification With Radio Range Awareness
8.2.3 High-Level Specification Without Radio Range Awareness
8.3 Performance Analysis
8.3.1 Methodology
8.3.2 Delivery Delay
8.3.3 Number of Relay Changes
8.3.4 Number of Relay ChangesWith High Probability of Success
8.4 Evaluation and Results
8.4.1 Under UDG Model
8.4.2 Under SIR Model
8.5 Extensions and General Mobility Models
8.6 Conclusions
9 Conclusions
9.1 Summary of Contributions
9.2 Perspectives and Future Directions
A Appendix
A.1 Locating the Starting Point z on the Closed Curve Bounding the Reception Area
List of Notations
Bibliography
