In this thesis, we introduce a novel architecture called Intelligent Architecture for Legged Robot Terrain Classification Using Proprioceptive and Exteroceptive Data (iARTEC ) . The proposed architecture integrates different terrain characterization and classification with other robotic system components. Within iARTEC , we consider the problem of having a legged robot autonomously learn to identify different terrains. Robust terrain identification can be used to enhance the capabilities of legged robot systems, both in terms of locomotion and navigation. For example, a robot that has learned to differentiate sand from gravel can autonomously modify (or even select a different) path in favor of traversing over a better terrain. The same kn...
Legged robots offer a more versatile solution to traversing outdoor uneven terrain compared to their...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
In this thesis, we introduce a novel architecture called Intelligent Architecture for Legged Robot ...
In this thesis, we introduce a novel architecture called "Intelligent Architecture for Legged Robot ...
Using data retrieved from the Puppy II robot at the University of Zurich (UZH), we show that machine...
Using data retrieved from the Puppy II robot at the University of Zurich (UZH), we show that machine...
In this thesis, we consider the problem of having a mobile robot autonomously learn to perceive diff...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Legged robots have the potential to traverse diverse and rugged terrain. To find a safe and ...
Terrain identification is a key enabling ability for generating terrain adaptive behaviors that assi...
Off road navigation demands ground robots to traverse complex and often changing terrain. Classifica...
Abstract — We present a novel terrain classification technique both for effective, autonomous locomo...
Legged robot navigation in extreme environments can hinder the use of cameras and lidar due to darkn...
We present a novel system, AdVENTR for autonomous robot navigation in unstructured outdoor environme...
Legged robots offer a more versatile solution to traversing outdoor uneven terrain compared to their...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
In this thesis, we introduce a novel architecture called Intelligent Architecture for Legged Robot ...
In this thesis, we introduce a novel architecture called "Intelligent Architecture for Legged Robot ...
Using data retrieved from the Puppy II robot at the University of Zurich (UZH), we show that machine...
Using data retrieved from the Puppy II robot at the University of Zurich (UZH), we show that machine...
In this thesis, we consider the problem of having a mobile robot autonomously learn to perceive diff...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Legged robots have the potential to traverse diverse and rugged terrain. To find a safe and ...
Terrain identification is a key enabling ability for generating terrain adaptive behaviors that assi...
Off road navigation demands ground robots to traverse complex and often changing terrain. Classifica...
Abstract — We present a novel terrain classification technique both for effective, autonomous locomo...
Legged robot navigation in extreme environments can hinder the use of cameras and lidar due to darkn...
We present a novel system, AdVENTR for autonomous robot navigation in unstructured outdoor environme...
Legged robots offer a more versatile solution to traversing outdoor uneven terrain compared to their...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...