The use of Unmanned Aerial Systems, commonly called drones, is growing enormously today. Applications that can benefit from the use of fleets of drones and a related human–machine interface are emerging to ensure better performance and reliability. In particular, a fleet of drones can become a valuable tool for monitoring a wide area and transmitting relevant information to the ground control station. We present a human–machine interface for a Ground Control Station used to remotely operate a fleet of drones, in a collaborative setting, by a team of multiple operators. In such a collaborative setting, a major interface design challenge has been to maximize the Team Situation Awareness, shifting the focus from the individual operator to the ...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for ...
This paper presents the concept of Cognitive Human-Machine Interfaces and Interactions (CHMI2) for U...
Although the technology for fully autonomous swarms of robots is rapidly progressing, the human oper...
The use of Unmanned Aerial Systems, commonly called drones, is growing enormously today. Applicatio...
Unmanned aerial vehicles (UAVs) operate with large degrees of autonomy when executing tasks from a g...
The use of Unmanned Aerial Systems, commonly called drones, today is massively growing. Drones can b...
Unmanned Aerial Vehicles (UAVs) can be used to access remote areas, e.g., for surveillance missions....
The current paper presents the results of the evaluation of a novel human machine interface for supe...
Abstract—Current artificial intelligence (AI) control paradigms tend to be one-to-one in nature and ...
In the context of the supervision of one or several unmanned vehicles by a human operator, the desig...
International audienceDuring the 3i European project for maritime surveillance, a solution has been ...
In this paper an interactive human-machine interface for UAVs (Unmanned Aerial Vehicles) mission con...
A key challenge in human–swarm interaction is to design a usable interface that allows the human ope...
Most ground robots deployed in disaster areas have been of limited use mainly because of their reduc...
There are over 500 RC systems on the market and each controller is set up differently. The goal of t...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for ...
This paper presents the concept of Cognitive Human-Machine Interfaces and Interactions (CHMI2) for U...
Although the technology for fully autonomous swarms of robots is rapidly progressing, the human oper...
The use of Unmanned Aerial Systems, commonly called drones, is growing enormously today. Applicatio...
Unmanned aerial vehicles (UAVs) operate with large degrees of autonomy when executing tasks from a g...
The use of Unmanned Aerial Systems, commonly called drones, today is massively growing. Drones can b...
Unmanned Aerial Vehicles (UAVs) can be used to access remote areas, e.g., for surveillance missions....
The current paper presents the results of the evaluation of a novel human machine interface for supe...
Abstract—Current artificial intelligence (AI) control paradigms tend to be one-to-one in nature and ...
In the context of the supervision of one or several unmanned vehicles by a human operator, the desig...
International audienceDuring the 3i European project for maritime surveillance, a solution has been ...
In this paper an interactive human-machine interface for UAVs (Unmanned Aerial Vehicles) mission con...
A key challenge in human–swarm interaction is to design a usable interface that allows the human ope...
Most ground robots deployed in disaster areas have been of limited use mainly because of their reduc...
There are over 500 RC systems on the market and each controller is set up differently. The goal of t...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for ...
This paper presents the concept of Cognitive Human-Machine Interfaces and Interactions (CHMI2) for U...
Although the technology for fully autonomous swarms of robots is rapidly progressing, the human oper...