Wireless Networking, Control and Positioning

for Unmanned Autonomous Vehicles

as part of the program of the
IEEE International Conference on Global Communications (GLOBECOM 2016)

Bringing together Robotics and Communications

Thank you for your contribution to Wi-UAV 2016

Wi-UAV 2016 has been a great continuation of the previous workshops. We thank all participants and contributors for the inspiring presentations and stimulating discussions. We hope to see you again at Wi-UAV 2017 in Singapore.

Key note

We are very happy to announce the key note speaker of this year's wi-UAV workshop:
Prof. Nikhil Chopra will give a talk on Cybersecurity Issues in Semi-Autonomous Robotic Systems.

The program of the workshop is online.


The GLOBECOM Wi-UAV workshop has become a unique, interdisciplinary platform to bring together two communities working on wireless networking, control and positioning of unmanned autonomous vehicles (UAVs): the control/robotics/aerospace research community is increasingly addressing the collaboration of UAVs requiring reliable wireless while the communication research community develops new communication systems and protocols, which need to be designed according to and validated with the challenging requirements of the control/robotics research.

Aims and Scope

Unmanned autonomous systems are increasingly used in a large number of contexts to support humans in dangerous and difficult-to-reach environments. Key areas of commercial aerial applications, such as inspection and logistics have gained attention lately and underline the potential of broad deployment of networked UAVs. In order to fulfill particularly challenging tasks, next-generation cellular networks will enable cooperation of a broad range of mobile devices, including autonomous or human-controlled devices with varying capabilities to communicate and interact with other devices. Visionary scenarios foresee unmanned vehicles to be organized in networked teams and even swarms. This vision can be applied to a wide range of applications, e.g., autonomous driving including platooning and traffic control, exploration for search-and-rescue missions, and factory automation. The communication subsystem needs to provide highly reliable and delay-tolerant control links as well as data links. Unmanned vehicles also offer the capability to form ad-hoc wireless networks, for example to facilitate temporary hot spots and compensate network outages in case of public events and emergencies. The navigation sub-system musts provide relative positioning information with sub-meter accuracy and very low latency (~1 ms). The steering and control unit needs to be tightly coupled with the communications and navigation subsystem to ensure proper decisions even with imperfect local information. The focus of the workshop will be solely on projects and research aiming at civilian applications. This sixth edition of the workshop aims to cover the most recent results of international research on new communications networks enabling the efficient control and context-awareness of teams of unmanned vehicles/systems operating on the ground, in the air, underwater, and in space scenarios.

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