The design of legged robotic systems targeted for climbing on steep terrain is critical for expanding robotic exploration in challenging terrain. While the most advanced quadruped robots show encouraging performance in level locomotion, there is little knowledge on the optimal design for climbing legged robots. In this paper, we investigate the climbing performance of quadrupedal systems with different joint topologies. To this end, we present a quantitative comparison performed in simulations of two robots in different configurations concerning locomotion stability, energy efficiency, and control versatility. Based on the results, optimized nominal stances are selected for each robot, and their climbing locomotion is demonstrated and compa...
With the emergence of more and more torque-controlled robots, the agility of leg locomotion has been...
We present a framework for quadrupedal locomotion over highly challenging terrain where the choice o...
Robots working in natural, urban, and industrial settings need to be able to navigate challenging en...
Quadruped robots are widely used in many scenarios because of their superior obstacle crossing and c...
Legged robots are highly attractive for\ud military purposes such as carrying heavy loads on uneven\...
This paper aims to determine an optimal structure for a quadruped robot, which will allow the robot’...
Research into legged robotics is primarily motivated by the prospects of building machines that are ...
This paper describes the development of a legged robot designed for general locomotion of complex te...
International audienceResearch into legged robotics is primarily motivated by the prospects of build...
Animals are capable of breathtaking dynamic rough terrain mobility -- far superior to that of any ex...
Abstract — As the use of mobile robots expands to more diverse and challenging environments, improve...
The rough terrain mobility of legged robots is expected to exceed the perfor- mance of their wheeled...
Dynamic stability allows running animals to maintain preferred speed during locomotion over rough te...
In this thesis, we are exploring agile, animal-like performance for our four-legged robot, Scout II,...
Poulakakis, IoannisA series of quadrupedal robots with different morphologies has been developed in ...
With the emergence of more and more torque-controlled robots, the agility of leg locomotion has been...
We present a framework for quadrupedal locomotion over highly challenging terrain where the choice o...
Robots working in natural, urban, and industrial settings need to be able to navigate challenging en...
Quadruped robots are widely used in many scenarios because of their superior obstacle crossing and c...
Legged robots are highly attractive for\ud military purposes such as carrying heavy loads on uneven\...
This paper aims to determine an optimal structure for a quadruped robot, which will allow the robot’...
Research into legged robotics is primarily motivated by the prospects of building machines that are ...
This paper describes the development of a legged robot designed for general locomotion of complex te...
International audienceResearch into legged robotics is primarily motivated by the prospects of build...
Animals are capable of breathtaking dynamic rough terrain mobility -- far superior to that of any ex...
Abstract — As the use of mobile robots expands to more diverse and challenging environments, improve...
The rough terrain mobility of legged robots is expected to exceed the perfor- mance of their wheeled...
Dynamic stability allows running animals to maintain preferred speed during locomotion over rough te...
In this thesis, we are exploring agile, animal-like performance for our four-legged robot, Scout II,...
Poulakakis, IoannisA series of quadrupedal robots with different morphologies has been developed in ...
With the emergence of more and more torque-controlled robots, the agility of leg locomotion has been...
We present a framework for quadrupedal locomotion over highly challenging terrain where the choice o...
Robots working in natural, urban, and industrial settings need to be able to navigate challenging en...