This tutorial was given in 2021 during IEEE Vehicular Technology Conference (VTC-Spring). Slides and references are in the description:
0:00 Intro
0:30 Agenda
2:05 a few words about KU Leuven, Belgium
4:30 Presentation of myself
6:26 Contacts
7:20 Drone Use-Cases
8:22 Camera-based use-cases: Infrastructure inspection, Agriculture, Search and Rescue
9:19 Drones for Media and Entertainment: aerial footage, drone shows
10:43 Drones for Telecommunications: Internet of Things, Smart Cities, Intelligent transportation
11:30 Drone market overview and trends
12:04 Futuristic use-cases: Drone Base Stations for 5G and 6G
13:10 Future of delivery: market size and forecasts
15:41 Delivery for healthcare
15:52 Air taxi, Urban Air Mobility: potential market size and current activities
18:10 Why are drones not around? Technology maturity, safety, sustainability, privacy, public acceptance
21:40 Future research directions for wireless experts
22:45 What can we learn from conventional aviation?
References:
[1] M. Mozaffari, W. Saad, M. Bennis and M. Debbah, “Mobile Unmanned Aerial Vehicles (UAVs) for Energy-Efficient Internet of Things Communications,” in IEEE Transactions on Wireless Communications, 2017
[2] S. H. Alsamhi, O. Ma, M. S. Ansari and F. A. Almalki, “Survey on Collaborative Smart Drones and Internet of Things for Improving Smartness of Smart Cities,” in IEEE Access, 2019
[3] H. Menouar, I. Guvenc, K. Akkaya, A. S. Uluagac, A. Kadri and A. Tuncer, “UAV-Enabled Intelligent Transportation Systems for the Smart City: Applications and Challenges,” in IEEE Communications Magazine, 2017
[4] E. Vinogradov, H. Sallouha, S. De Bast, M.M. Azari, S. Pollin, “Tutorial on UAVs:A Blue Sky View on Wireless Communications” Journal of Mobile Multimedia, 2018
[5] M. Mozaffari, W. Saad, M. Bennis, Y. -H. Nam and M. Debbah, “A Tutorial on UAVs for Wireless Networks: Applications, Challenges, and Open Problems,” in IEEE Communications Surveys & Tutorials, 2019
[6] Y. Zeng, Q. Wu and R. Zhang, “Accessing From the Sky: A Tutorial on UAV Communications for 5G and Beyond,” in Proceedings of the IEEE, 2019
[7] J. Rosser, V. Vignesh, B. Terwilliger, B. Parker, ”Surgical and Medical Applications of Drones: A Comprehensive Review” JSLS. 2018
[8] J. Dhote, S. Limbourg “Designing unmanned aerial vehicle networks for biological material transportation – The case of Brussels” Computers & Industrial Engineering, 2020
[9] M. Joerss, J. Schroder, F. Neuhaus, C. Klink, and F. Mann, “Parcel delivery: The future of last mile,” McKinsey: Travel, Transport and Logistics, 2016
[10] A. Saboor, S. Coene, E. Vinogradov, E. Tanghe, W. Joseph, S. Pollin “Elevating the future of mobility: UAV-enabled Intelligent Transportation Systems” arXiv preprint arXiv:2110.09934, 2021
[11] R. Kellermann, T. Biehle, and L. Fischer, “Drones for parcel and passenger transportation: A literature review,” Transportation Research Interdisciplinary Perspectives 2020.
[12] E Vinogradov, S Pollin “Drone technology: interdisciplinary systematic assessment of knowledge gaps and potential solutions”, arXiv preprint arXiv:2110.07532, 2021
[13] Clothier RA, Greer DA, Greer DG, Mehta AM. Risk Perception and the Public Acceptance of Drones. Risk Anal. 2015
[14] L. K. Lin Tan, B. C. Lim, G. Park, K. H. Low, and V. C. Seng Yeo, “Public acceptance of drone applications in a highly urbanized environment,” Technology in Society, vol. 64, p. 101462, 2021.
[15] Q. Chen, H. Zhu, L. Yang, X. Chen, S. Pollin and E. Vinogradov, “Edge Computing Assisted Autonomous Flight for UAV: Synergies between Vision and Communications,” in IEEE Communications Magazine, 2021
[16] S. Hayat, R. Jung, H. Hellwagner, C. Bettstetter, D. Emini and D. Schnieders, “Edge Computing in 5G for Drone Navigation: What to Offload?,” in IEEE Robotics and Automation Letters, vol. 6, no. 2, pp. 2571-2578, 2021
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