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Autonomous Airborne Wireless Networks

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Autonomous Airborne Wireless Networks
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Discover what lies beyond the bleeding-edge of autonomous airborne networks with this authoritative new resource Autonomous Airborne Wireless Networks The book evaluates advances in the cutting-edge of unmanned aerial vehicle wireless network technology while offering readers new ideas on how airborne wireless networks can support various applications expected of future networks. The rapidly developing field is examined from a fresh perspective, one not just concerned with ideas of control, trajectory optimization, and navigation.
Autonomous Airborne Wireless Networks A thorough discussion of distributed drone base station positioning for emergency cellular networks using reinforcement learning (AI-enabled trajectory optimization) An exploration of unmanned aerial vehicle-to-wearables (UAV2W) indoor radio propagation channel measurements and modelling An up-to-date treatment of energy minimization in UAV trajectory design for delay tolerant emergency communication Examinations of cache-enabled UAVs, 3D MIMO for airborne networks, and airborne networks for Internet of Things communications Perfect for telecom engineers and industry professionals working on identifying practical and efficient concepts tailored to overcome challenges facing unmanned aerial vehicles providing wireless communications,
also has a place on the bookshelves of stakeholders, regulators, and research agencies working on the latest developments in UAV communications.

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4 Chapter 5Figure 5.1 Reference system model of self‐energized UAV‐assisted communicati...Figure 5.2 Block diagram of the decode‐and‐forward (DF) relaying for the sel...Figure 5.3 Time block diagram of the proposed system model.Figure 5.4 System layout for the proposed communication network.Figure 5.5 Achievable rate at the user versus картинка 7 for various values of cachin...Figure 5.6 Comparison of achievable rate at the user for different caching c...Figure 5.7 Transmission SNR versus achievable rate at the user for different...Figure 5.8 User requested rate картинка 8 versus optimal values of картинка 9 and картинка 10 : (a) when ...Figure 5.9 Optimized trajectory of the UAV for the given communication setup...

5 Chapter 6Figure 6.1 An illustration of mmWave/THz and UAVs integrated hybrid communic...Figure 6.2 Pictorial representation of UAV‐enabled wireless network.Figure 6.3 Stochastic geometry for the communication between an SCB and a UA...Figure 6.4 A snapshot of 3D placement of child‐UAVs and the association of S...Figure 6.5 Comparison of sum rate by varying the constraint (6.15) and (6.16...Figure 6.6 A comparison of unassociated SCBs and the sum rate with constrain...Figure 6.7 Performance of sum rate by varying the constraint (6.16) and havi...Figure 6.8 Sum rate's performance when the number of child‐UAVs and картинка 11 are va...

6 Chapter 7Figure 7.1 The UAV‐enabled cooperative jamming in cognitive radio system.Figure 7.2 Average secrecy rate versus flight time period.Figure 7.3 Trajectories of UAV with different methods.Figure 7.4 Distance between UAV and Eve.Figure 7.5 Convergence behavior. (a) Convergence behavior at картинка 12 dBm. (b) Aver...

7 Chapter 8Figure 8.1 Localization using IRS model with two IRSs and one SC.Figure 8.2 Localization of a UAV using multiple IRSs.

8 Chapter 9Figure 9.1 Flow chart explaining different architectures of UAV systems.Figure 9.2 UAV system's different topologies.Figure 9.3 UAV system's benefits in different applications.

9 Chapter 10Figure 10.1 Cellular Network‐assisted low‐altitude aerial base station (ABS)...Figure 10.2 Ray tracing simulation in urban environment.Figure 10.3 Variation of number of ABSs required with its altitude.Figure 10.4 Variation of number of ABSs required with its transmitting power...Figure 10.5 Variation of number of ABSs required with geographical area to b...Figure 10.6 TBS path loss and transmission power.Figure 10.7 Master UAV transmission power and line of sight.Figure 10.8 System for channel measurement.Figure 10.9 Received power by ground users from SUAVs cluster.Figure 10.10 64‐QAM throughput coverage area.

10 Chapter 11Figure 11.1 Qualitative comparison of the most diffused wireless communicati...Figure 11.2 Plausible network architectures, highlighting the use of MEC in

11 Chapter 12Figure 12.1 Complete system on UAV.Figure 12.2 Worst overall classification accuracy simulation result. (a) Ori...Figure 12.3 Worst false negative simulation result. (a) Original image. (b) ...Figure 12.4 Field experiment results for automated point labeling. (a) Origi...Figure 12.5 Winch and Raspberry Pi.Figure 12.6 Sensor payload.Figure 12.7 Spline results. (a) RMSE. (b) Maximum difference.Figure 12.8 IDW results. (a) RMSE. (b) Maximum difference.

12 Chapter 13Figure 13.1 Tier‐1 of satellite networks: It includes the connection of a sa...Figure 13.2 Tier‐2 of satellite networks: It includes the inter‐satellite li...Figure 13.3 Tier‐3 of satellite networks: It includes the communication of t...

Guide

1 Cover Page

2 Title Page Autonomous Airborne Wireless Networks Edited by Muhammad Ali Imran, Oluwakayode Onireti, Shuja Ansari, and Qammer H. Abbasi University of Glasgow, UK

3 Copyright

4 Table of Contents

5 Begin Reading

6 Index

7 WILEY END USER LICENSE AGREEMENT

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