Robot aerial platforms, often called “drones”, offer exciting new opportunities for mobile computing. Autonomous cooperative systems, made of intelligent devices (such as drones), may deploy and optimize the network to improve its coverage, build routes and fix network partitions to ensure the best communication performance, reduce energy consumption, and dynamically respond to detected network problems. Innovative solutions are built upon these drone networking primitives to accomplish cost-effective and wide-ranging mission-critical applications, including search and rescue, surveillance, 3D-mapping, farmland and construction monitoring, delivery of light-weight objects and products, and video.
DroNet welcomes contributions dealing with all facets of drones as mobile computing platforms, including system aspects, theoretical studies, algorithm and protocol design, as well as requirements, constraints, dependability, and regulations. We are particularly looking for papers reporting on experimental results of deployed systems, summaries of challenges or advancements, measurements, and innovative applications. We also look forward to contributions from interdisciplinary teams to present robotic work or applications focusing on the communication networks enabling the efficient control and context-awareness of teams of unmanned autonomous vehicles/systems with an emphasis on civilian and aerial applications, while related work on underwater/space/ground unmanned systems are also welcome.
Topics of interest include, but are not limited to:
Novel applications of drones
Drone system design and deployment
Drone ad-hoc networks
Micro flying systems
Aerial communication protocol design
Drone operating systems
Programming systems
MAC and routing protocols for drone fleets
Theoretical analysis and models for drone networks
Solutions for sparse and dense fleets of drones
Spectrum and regulatory issues
Mission and context-aware solutions
Drone coordination
Mobility-aware 3D communication
Delay-tolerant networks and ferrying
Energy-efficient operation and harvesting
Integration of drones with backend systems
Drone-based sensor networks
Positioning and passive/active localization
Swarm movement, coordination, and behavior
Autonomous flight
Artificial intelligence techniques for drones
Vision and object tracking
Human drone interaction
Cooperative surveillance, smart cameras and sensors
Acceptance, security, and privacy aspects
Experimental results of aerial communication
Results from prototypes, test-beds and demonstrations
Paper submission: April 19th May 4th, 2025
Decision notification: May 16th, 2025 May 19th, 2025
Camera-ready due: May 23rd, 2025
Workshop Date: June 27th, 2025