UAV Communications for 5G and Beyond Wiley IEEE 1st Edition by Yong Zeng, Ismail Guvenc, Rui Zhang 1119575729 9781119575726

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ISBN-10 :  1119575729 

ISBN-13 :  9781119575726

Author : Yong Zeng, Ismail Guvenc, Rui Zhang 

To advantageously plan and design for the explosive near-future increase in the number of unmanned aerial vehicles (UAVs) and their demanding applications, integration of UAVs into cellular communication systems has seen increasing interest. This book provides a timely and comprehensive overview of the recent research efforts and results of unmanned aerial vehicles (UAVs)-integrated cellular network communications. The aim of the book is to provide a comprehensive coverage of the potential applications, networking architectures, latest research findings and key enabling technologies, experimental measurement results, as well as up-to-date industry standardizations for UAV communications in cellular systems, including the existing LTE as well as the future 5G-and-beyond systems.

UAV Communications for 5G and Beyond (Wiley – IEEE) 1st Table of contents:

Part I: Fundamentals of UAV Communications
1 Overview
1.1 UAV Definitions, Classes, and Global Trend
1.2 UAV Communication and Spectrum Requirement
1.3 Potential Existing Technologies for UAV Communications
1.4 Two Paradigms in Cellular UAV Communications
1.5 New Opportunities and Challenges
1.6 Chapter Summary and Main Organization of the Book
References
2 A Survey of Air‐to‐Ground Propagation Channel Modeling for Unmanned Aerial Vehicles
2.1 Introduction
2.2 Literature Review
2.3 UAV AG Propagation Characteristics
2.4 AG Channel Measurements: Configurations, Challenges, Scenarios, and Waveforms
2.5 UAV AG Propagation Measurement and Simulation Results in the Literature
2.6 UAV AG Propagation Models
2.7 Conclusions
References
Note
3 UAV Detection and Identification
3.1 Introduction
3.2 RF‐Based UAV Detection Techniques
3.3 Multistage UAV RF Signal Detection
3.4 UAV Classification Using RF Fingerprints
3.5 Experimental Results
3.6 Conclusion
Acknowledgments
References
Note
Part II: Cellular‐Connected UAV Communications
4 Performance Analysis for Cellular‐Connected UAVs
4.1 Introduction
4.2 Modelling Preliminaries
4.3 Performance Analysis
4.4 System Design: Study Cases and Discussion
4.5 Conclusion
Appendix AProof of Theorem 1
Appendix BProof of Lemma 1
Appendix CProof of Corollary 1
References
Notes
5 Performance Enhancements for LTE‐Connected UAVs: Experiments and Simulations2
5.1 Introduction
5.2 LTE Live Network Measurements
5.3 Performance in LTE Networks
5.4 Reliability Enhancements
5.5 Summary and Outlook
References
6 3GPP Standardization for Cellular‐Supported UAVs
6.1 Short Introduction to LTE and NR
6.2 Drones Served by Mobile Networks
6.3 3GPP Standardization Support for UAVs
6.4 Flying Mode Detection in Cellular Networks
References
7 Enhanced Cellular Support for UAVs with Massive MIMO
7.1 Introduction
7.2 System Model
7.3 Single‐User Downlink Performance
7.4 Massive MIMO Downlink Performance
7.5 Enhanced Downlink Performance
7.6 Uplink Performance
7.7 Conclusions
References
Notes
8 High‐Capacity Millimeter Wave UAV Communications
8.1 Motivation
8.2 UAV Roles and Use Cases Enabled by Millimeter Wave Communication
8.3 Aerial Channel Models at Millimeter Wave Frequencies
8.4 Key Aspects of UAV MIMO Communication at mmWave Frequencies
8.5 Establishing Aerial mmWave MIMO Links
8.6 Research Opportunities
8.7 Conclusions
References
Note
Part III: UAV‐Assisted Wireless Communications
9 Stochastic Geometry‐Based Performance Analysis of Drone Cellular Networks
9.1 Introduction
9.2 Overview of the System Model
9.3 Average Rate
9.4 Handover Probability
9.5 Results and Discussion
9.6 Conclusion
Acknowledgment
References
10 UAV Placement and Aerial–Ground Interference Coordination
10.1 Introduction
10.2 Literature Review
10.3 UABS Use Case for AG‐HetNets
10.4 UABS Placement in AG‐HetNet
10.5 AG‐HetNet Design Guidelines
10.6 Inter‐Cell Interference Coordination
10.7 Simulation Results
10.8 Concluding remarks
References
11 Joint Trajectory and Resource Optimization
11.1 General Problem Formulation
11.2 Initial Path Planning via the Traveling Salesman and Pickup‐and‐Delivery Problems
11.3 Trajectory Discretization
11.4 Block Coordinate Descent
11.5 Successive Convex Approximation
11.6 Unified Algorithm
11.7 Summary
References
Note
12 Energy‐Efficient UAV Communications
12.1 UAV Energy Consumption Model
12.2 Energy Efficiency Maximization
12.3 Energy Minimization with Communication Requirement
12.4 UAV–Ground Energy Trade‐off
12.5 Chapter Summary
References
13 Fundamental Trade‐Offs for UAV Communications
13.1 Introduction
13.2 Fundamental Trade‐offs
13.3 Throughput–Delay Trade‐Off
13.4 Throughput–Energy Trade‐Off
13.5 Further Discussions and Future Work
13.6 Chapter Summary
References
14 UAV–Cellular Spectrum Sharing
14.1 Introduction
14.2 SNR Meta‐Distribution of Drone Networks
14.3 Spectrum Sharing of Drone Networks
14.4 Summary
References
Part IV: Other Advanced Technologies for UAV Communications
15 Non‐Orthogonal Multiple Access for UAV Communications
15.1 Introduction
15.2 User‐Centric Strategy for Emergency Communications
15.3 UAV‐Centric Strategy for Offloading Actions
15.4 Numerical Results
15.5 Conclusions
References
Note
16 Physical Layer Security for UAV Communications
16.1 Introduction
16.2 Breaching Security in Wireless Networks
16.3 Wireless Network Security Requirements
16.4 Physical Layer Security
16.5 Physical Layer Security for UAVs
16.6 A Case Study: Secure UAV Transmission
Summary
References
Note
17 UAV‐Enabled Wireless Power Transfer
17.1 Introduction
17.2 System Model
17.3 Sum‐Energy Maximization
17.4 Min‐Energy Maximization under Infinite Charging Duration
17.5 Min‐Energy Maximization Under Finite Charging Duration
17.6 Numerical Results
17.7 Conclusion and Future Research Directions
References
Notes
18 Ad‐Hoc Networks in the Sky
18.1 Communication Support for UAVs
18.2 The Mobility Challenge
18.3 Establishing an Ad‐Hoc Network
18.4 Standards
18.5 Technologies and Products
18.6 Software‐Defined Network as a Solution for UAV Networks
18.7 Summary

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