PhD Offer: Exploiting synergies of UAV networks and 5G
Exploiting synergies of UAV networks and 5G
Advisor: Enrico Natalizio (firstname.lastname@example.org)
Location: LORIA (SIMBIOT Team), Nancy
Starting date: September 2019
Unmanned aerial vehicles (UAVs) are quickly spreading into several fields of civilian and commercial applications, such as infrastructure inspection , event filming , disaster management , precision-agriculture . To realize UAV applications, it is necessary to design and develop innovative wireless communication technologies and networked cooperative schemes, not only to support the UAV operations and ensure their safe operations, but also to enable the high-capacity mission-related data transmissions for rate-demanding applications. As 5G communications promise astonishing improvements in performance (e.g., 100x data rates, 1000x connected devices, 1/10x energy consumption, 1/5x data latency), in addition to service management and orchestration, and network function virtualization, the integration of UAVs into 5G (and beyond) systems is a promising technology to achieve such goals. The usage of UAV fleets in 5G can, on one hand, assist the terrestrial communications in 5G, which are referred to as UAV-assisted 5G communications, and on the other hand, it can boost incredibly the Internet of Things (IoT) paradigm, leading to an Internet of Intelligent Things, comprising not only objects but also UAV and other intelligent devices. In order to manage UAV fleets in 5G, two crucial scientific questions must be addressed: the design and development of network mechanisms to handle UAV “virtualized” capabilities, the formulation of services management and mapping with UAV fleets capabilities as mathematical optimization problems under energy constraints.
By leveraging the experience of the SIMBIOT team on UAV networks, the PhD student will design and evaluate new algorithms for managing UAV fleets in order to exploit 5G communications architecture and satisfy 5G communication requirements. In this sense, the UAV fleets can be seen as either a “tool” to accomplish a specific mission requested by the end user, and/or as a 5G core network extension to increase coverage. In both case, networking and optimization schemes are needed. Therefore, the student will focus on the following research directions:
- Definition of network-aware algorithms of movement for accomplishing the UAV missions and/or extending the network coverage by leveraging our experience with controlled mobility in wireless networks .
- Integration of UAV fleet control into the reference 5G communications architecture,
- Development of innovative models and algorithms for managing UAV services and designing UAV-based 5G networks, extending the current state-of-the-art .
The PhD student will work closely with the members of the SIMBIOT research team.
Knowledge of UAV communication architectures/protocols as well as of 5G communication architecture. Practical skills in designing and implementing networking protocols for controlled mobility devices.
Advanced programming skills in C++/Java and Matlab, knowledge of network simulators.
High proficiency in English.
 M. Erdelj, O. Saif, E. Natalizio (2017), I. Fantoni-Coichot, “UAVs that Fly Forever: Uninterrupted Structural Inspection through Automatic UAV Replacement”, Elsevier Ad Hoc Networks, ISSN 1570-8705.
 N. Zema, E. Natalizio, E. Yanmaz (2017), “An Unmanned Aerial Vehicle Network for Sport Event Filming with Communication Constraints”, First International Balkan Conference on Communications and Networking (BALKANCOM), Tirana, Albania, May 2017.
 M. Erdelj, M. Krol, E. Natalizio (2017), “Wireless Sensor Networks and Multi-UAV Systems for Natural Disaster Management, Elsevier Computer Networks”, vol. 124, pp. 72-86.
 E. Raymond Hunt Jr. & Craig S. T. Daughtry (2017),“What good are unmanned aircraft systems for agricultural remote sensing and precision agriculture?”, International Journal of Remote Sensing, DOI: 10.1080/01431161.2017.1410300.
 E. Natalizio (2017), “Mobility as a primitive to improve communications in wireless networks”, HDR Defense. http://bit.ly/2oKITEW.
 Y. Zeng, Q. Wu, R. Zhang, “Accessing From The Sky: A Tutorial on UAV Communications for 5G and Beyond”, arXiv:1903.05289.