This paper presents a practical solution to the problem of multi-legged robot stability moving on unstructured 3D terrains using a multi-contact approach. The solution is based on a modified version of the contact wrench set method, which has been reformulated to utilize three arbitrary contact points representing the physics of contact between the robot and the environment. The new formulations are then used to test the stability of a life-size humanoid robot. The proposed method extends available formulations making the CWS tool suitable for a variety of terrains having various physical and geometrical characteristics including heterogenous coplanar (e.g., stairs and sloped terrain) and noncoplanar surfaces (e.g., gravel, sand, compliant ...
Abstract — Humanoids locomote by making and breaking contacts with their environment. Thus, a crucia...
Bipedal robotics is a relatively new research area which is concerned with creating walking robots w...
International audienceThis work aims at experimentally identifyinga new mechanical descriptor of hum...
This paper presents a practical solution to the problem of multi-legged robot stability moving on un...
International audienceThe essence of humanoid robots is their ability to reproduce human skills in l...
Incremental progress in humanoid robot locomotion over the years has achieved essential capabilities...
The field of Humanoid robotics research has often struggled to find a unique niche that is not bette...
In this chapter, we developed and investigated numerically a general kinematic model of a multi-legg...
This dissertation addresses issues in two large classes of robotic systems: humanoid and multi-legge...
Among a large variety of available mobile ground robotic designs, legged robots are potentially the ...
International audiencePlanning, adapting and executing multi-contact locomotion movements on legged ...
This paper presents a novel method to control humanoid robot dynamic loco-manipulation with multiple...
Incremental progress in humanoid robot locomotion over the years has achieved important capabilities...
textThe problem of performing complex maneuvers in challenging terrains is crucial to the advanceme...
AbstractTraditional industrial applications involve robots with limited mobility. Consequently, inte...
Abstract — Humanoids locomote by making and breaking contacts with their environment. Thus, a crucia...
Bipedal robotics is a relatively new research area which is concerned with creating walking robots w...
International audienceThis work aims at experimentally identifyinga new mechanical descriptor of hum...
This paper presents a practical solution to the problem of multi-legged robot stability moving on un...
International audienceThe essence of humanoid robots is their ability to reproduce human skills in l...
Incremental progress in humanoid robot locomotion over the years has achieved essential capabilities...
The field of Humanoid robotics research has often struggled to find a unique niche that is not bette...
In this chapter, we developed and investigated numerically a general kinematic model of a multi-legg...
This dissertation addresses issues in two large classes of robotic systems: humanoid and multi-legge...
Among a large variety of available mobile ground robotic designs, legged robots are potentially the ...
International audiencePlanning, adapting and executing multi-contact locomotion movements on legged ...
This paper presents a novel method to control humanoid robot dynamic loco-manipulation with multiple...
Incremental progress in humanoid robot locomotion over the years has achieved important capabilities...
textThe problem of performing complex maneuvers in challenging terrains is crucial to the advanceme...
AbstractTraditional industrial applications involve robots with limited mobility. Consequently, inte...
Abstract — Humanoids locomote by making and breaking contacts with their environment. Thus, a crucia...
Bipedal robotics is a relatively new research area which is concerned with creating walking robots w...
International audienceThis work aims at experimentally identifyinga new mechanical descriptor of hum...