Monday, May 20, 2019

[DMANET] MDPI Special Issue on 'Algorithms for Control and Applications of Unmanned Aerial Vehicles' Deadline 31 December 2019

Dear Colleagues,
In the last few years, drones, and more generally, unmanned autonomous
vehicles (UAVs) have developed rapidly and been used for emergent civil
applications. The most futuristic and promising applications cover a
range of diverse fields, including agriculture, public safety, human
rights monitoring, disaster management, infrastructure monitoring,
package delivery, supply chain, and communication networks. In such
contexts, the UAVs will work in cooperation with a large number of
diverse, energy-constrained, mobile smart devices that are, and will
increasingly be, settled around us. The cooperative work of UAVs,
belonging even to different owners, will be of fundamental importance.

For this Special Issue, we are particularly interested in papers that
present theoretical algorithmic contributions from the perspective of
operations that recur in new applications. The papers should propose
mathematical models to describe the problems characteristic of the
control and application of UAV systems, study the problems of
computational complexity, devise new centralized or distributed
algorithms, and also apply optimization techniques with multiple

The topics of interest include, but are not limited to:
- Theoretical foundations (modeling, design and analysis of
algorithms) for Drones/ UAV assisted networks
- Theoretical foundations for parcel delivery using Drones
- Theoretical foundations for supply chain using Drones
- Theoretical foundations for monitoring with Drones/UAV recurring
operations (planting, weeding, fertilizing) in agriculture
- Theoretical foundations for forest monitoring with Drones/UAVs
- Theoretical foundations for recharging IoT devices with Drones
- Theoretical foundations for control automated vehicles with UAVs
- Theoretical foundations for cooperative use of robots and drones
- Theoretical foundations for providing network properties (coverage,
connectivity) in emergency
- Theoretical foundations for providing network properties during
temporary events
- Theoretical foundations for monitoring public safety on roads
- Theoretical foundations for monitoring human rights with drones
in hostile environments
- Theoretical foundations for optimal drones deployment
- Theoretical foundations for optimal drones coverage
- Theoretical foundations for cooperative control of multiple UAVs

Guest Editor: Cristina M. Pinotti

Algorithms for Control and Applications of Unmanned Aerial Vehicles

Francesco Betti Sorbelli
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