Add to ORKGA primary objective of the "Autonomous Robotics and Human-Machine Systems" group at the "Max Planck Institute for Biological Cybernetics" is the design of new algorithms and architectures aimed at filling the gap between aerial vehicles conceived as pure flying sensors and fully-mature flying robots that are able to deeply interact with the surrounding world. Within this research perspective, the group is currently exploring two main areas. Firstly, we aim at establishing a tight coupling (both haptic and "immersive" in a more generic sense) with human collaborators, that might be also remotely located. Secondly, we are exploring new methodologies to allow a physical and effective action in the flyable space of the MAVs. The talk will brief...
Unmanned Aerial Vehicles’ (UAVs) ability to reach places not accessible to humans or other robots an...
International audienceIn this paper, we propose a bilateral tele-operation scheme for cooperative ae...
In this paper, we discuss a novel control strategy for the bilateral teleoperation of multi-robot sy...
A primary objective of the "Autonomous Robotics and Human-Machine Systems" group at the "Max Planck ...
This talk will provide a high-level overview of some of the very recent and current activities of th...
In this paper, we present a complete control frame- work and associated experimental testbed for the...
This talk will cover some recent theoretical and experimental results in the new topic of Bilateral ...
A unified framework that allows letting the group of UAVs autonomously control its topology in a saf...
This talk will show some recent theoretical and experimental results in the multi-robot field, with ...
International audienceThe flying hand is a robotic hand consisting of a swarm of UAVs able to grasp ...
The flying hand is a robotic hand consisting of a swarm of UAVs able to grasp an object where each U...
This topic of this talk will centered around the recent work of the Autonomous Robotics and Human-Ma...
In our research group, we study new ways to interface humans and remote (multi-)robot systems in an ...
Aerial mobile manipulation is a growing area of robotics research that claims to bring in the air th...
International audienceIn this chapter we show and compare several representative examples of human-c...
Unmanned Aerial Vehicles’ (UAVs) ability to reach places not accessible to humans or other robots an...
International audienceIn this paper, we propose a bilateral tele-operation scheme for cooperative ae...
In this paper, we discuss a novel control strategy for the bilateral teleoperation of multi-robot sy...
A primary objective of the "Autonomous Robotics and Human-Machine Systems" group at the "Max Planck ...
This talk will provide a high-level overview of some of the very recent and current activities of th...
In this paper, we present a complete control frame- work and associated experimental testbed for the...
This talk will cover some recent theoretical and experimental results in the new topic of Bilateral ...
A unified framework that allows letting the group of UAVs autonomously control its topology in a saf...
This talk will show some recent theoretical and experimental results in the multi-robot field, with ...
International audienceThe flying hand is a robotic hand consisting of a swarm of UAVs able to grasp ...
The flying hand is a robotic hand consisting of a swarm of UAVs able to grasp an object where each U...
This topic of this talk will centered around the recent work of the Autonomous Robotics and Human-Ma...
In our research group, we study new ways to interface humans and remote (multi-)robot systems in an ...
Aerial mobile manipulation is a growing area of robotics research that claims to bring in the air th...
International audienceIn this chapter we show and compare several representative examples of human-c...
Unmanned Aerial Vehicles’ (UAVs) ability to reach places not accessible to humans or other robots an...
International audienceIn this paper, we propose a bilateral tele-operation scheme for cooperative ae...
In this paper, we discuss a novel control strategy for the bilateral teleoperation of multi-robot sy...