Add to ORKGIn this paper, we present a decentralized passivity-based control strategy for the bilateral teleoperation of a group of Unmanned Aerial Vehicles (UAVs). The human operator at the master side can command the group motion and receive suitable force cues informative about the remote environment. By properly controlling the energy exchanged within the slave side (the UAV group), we guarantee that the connectivity of the group is preserved and we prevent inter-agent and obstacle collisions. At the same time, we allow the behavior of the UAVs to be as flexible as possible with arbitrary split and join maneuvers. The results of the paper are validated by means of human/hardware-in-the-loop (HHIL) simulations
This talk will present some recent theoretical and experimental results in the relatively new topic ...
We present a decentralized system for the bilateral teleoperation of groups of UAVs which only relie...
In this talk, we will review some recent advancements in the field of Aerial Teleoperation, i.e., ho...
In this paper, we present a decentralized passivity-based control strategy for the bilateral teleope...
In this paper, we present a decentralized passivitybased control strategy for the bilateral teleoper...
In this paper, we present a decentralized passivity- based control strategy for the bilateral teleop...
In this paper, we present an experimental validation of a novel decentralized passivity-based contro...
In this paper, we present an experimental validation of a novel decentralized passivity-based contro...
In this paper, we present a passivity-based decentralized approach for bilaterally teleoperating a g...
In this paper, a novel distributed control strategy for teleoperating a fleet of Unmanned Aerial Veh...
Abstract — In this paper, a novel distributed control strategy for teleoperating a fleet of Unmanned...
In this paper, we present a passivity-based de- centralized approach for bilaterally teleoperating a...
In this paper, a novel decentralized control strategy for bilaterally teleoperating heterogeneous gr...
This talk will cover some recent theoretical and experimental results in the new topic of Bilateral ...
This talk will present some recent theoretical and experimental results in the relatively new topic ...
We present a decentralized system for the bilateral teleoperation of groups of UAVs which only relie...
In this talk, we will review some recent advancements in the field of Aerial Teleoperation, i.e., ho...
In this paper, we present a decentralized passivity-based control strategy for the bilateral teleope...
In this paper, we present a decentralized passivitybased control strategy for the bilateral teleoper...
In this paper, we present a decentralized passivity- based control strategy for the bilateral teleop...
In this paper, we present an experimental validation of a novel decentralized passivity-based contro...
In this paper, we present an experimental validation of a novel decentralized passivity-based contro...
In this paper, we present a passivity-based decentralized approach for bilaterally teleoperating a g...
In this paper, a novel distributed control strategy for teleoperating a fleet of Unmanned Aerial Veh...
Abstract — In this paper, a novel distributed control strategy for teleoperating a fleet of Unmanned...
In this paper, we present a passivity-based de- centralized approach for bilaterally teleoperating a...
In this paper, a novel decentralized control strategy for bilaterally teleoperating heterogeneous gr...
This talk will cover some recent theoretical and experimental results in the new topic of Bilateral ...
This talk will present some recent theoretical and experimental results in the relatively new topic ...
We present a decentralized system for the bilateral teleoperation of groups of UAVs which only relie...
In this talk, we will review some recent advancements in the field of Aerial Teleoperation, i.e., ho...