Autonomous Airborne Wireless Networks. Группа авторов
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Table of Contents
1 Cover
7 2 Channel Model for Airborne Networks 2.1 Introduction 2.2 UAV Classification 2.3 UAV‐Enabled Wireless Communication 2.4 Channel Modeling in UAV Communications 2.5 Key Research Challenges of UAV‐Enabled Wireless Network 2.6 Conclusion Bibliography
8 3 Ultra‐wideband Channel Measurements and Modeling for Unmanned Aerial Vehicle‐to‐Wearables (UAV2W) Systems 3.1 Introduction 3.2 Measurement Settings 3.3 UWB‐UAV2W Radio Channel Characterization 3.4 Statistical Analysis 3.5 Conclusion Bibliography Notes
9 4 A Cooperative Multiagent Approach for Optimal Drone Deployment Using Reinforcement Learning 4.1 Introduction 4.2 System Model 4.3 Reinforcement Learning Solution 4.4 Representative Simulation Results 4.5 Conclusions and Future Work Acknowledgments Bibliography
10 5 SWIPT‐PS Enabled Cache‐Aided Self‐Energized UAV for Cooperative Communication 5.1 Introduction 5.2 System Model 5.3 Optimization Problem Formulation 5.4 Numerical Simulation Results 5.5 Conclusion Acknowledgments Appendix 5.A Proof of Optimal Solutions Obtained in (P1) Bibliography Notes
11 6 Performance of mmWave UAV‐Assisted 5G Hybrid Heterogeneous Networks 6.1 The Significance of UAV Deployment 6.2 Contribution 6.3 The Potential of mmWave and THz Communication 6.4 Challenges and Applications 6.5 Fronthaul Connectivity using UAVs 6.6 Communication Model 6.7 Association of SCBs with UAVs 6.8 Results and Discussions 6.9 Conclusion Bibliography Notes
12 7 UAV‐Enabled Cooperative Jamming for Physical Layer Security in Cognitive Radio Network 7.1 Introduction 7.2 System Model 7.3 Proposed Algorithm 7.4 Numerical Results 7.5 Conclusion Bibliography
13 8 IRS‐Assisted Localization for Airborne Mobile Networks 8.1 Introduction 8.2 Intelligent Reflecting Surfaces in Airborne Networks 8.3 Localization Using IRS 8.4 Research Challenges 8.5 Summary and Conclusion Bibliography
14
9 Performance Analysis of UAV‐Enabled Disaster Recovery Networks