Building trajectories for biped robot walking is a complex task considering all degrees of freedom (DOFs) commonly bound within the mechanical structure. A typical problem for such robots is the instability produced by violent transitions between walking phases in particular when a swinging leg impacts the surface. Although extensive research on novel efficient walking algorithms has been conducted, falls commonly appear as the walking speed increases or as the terrain condition changes. This paper presents a polynomial trajectory generation algorithm (PTA) to implement the walking on biped robots following the cubic Hermitian polynomial interpolation between initial and final conditions. The proposed algorithm allows smooth transitions bet...
Many robots, such as humanoid robot, biped robot, and robotic exoskeleton, need human guide. Particu...
In this paper, the trajectory generation method to make the biped robot walk in every direction on t...
[出版社版](c)2005 IEEE. Personal use of this material is permitted. However, permission to reprint/repub...
A not trivial problem in bipedal robot walking is the instability produced by the violent transition...
International audienceWe want to control an anthropomorphic biped robot to make it walk in its envir...
A not trivial problem in bipedal robot walking is the instability produced by violent transitions be...
This paper proposes a trajectory generation method for a biped robot to walk on an inclined surface....
This paper proposes a variable walking trajectory generation method for biped robots based on redund...
[[abstract]]Traditional planning of biped robot walking patterns solves optimal trajectory for minim...
The paper analyzes the mechanics of bipedal movement of a mobile robot and introduces the inverse ma...
Many recent approaches have successfully generated a stable walking pattern for biped robots, but di...
Abstract. This paper presents a method for planning three-dimensional walking patterns for biped rob...
International audienceWith the growing importance of Human-Robot Interaction (HRI), the movement of ...
This paper proposes a dynamically stable and optimal trajectory generation method for biped robots t...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
Many robots, such as humanoid robot, biped robot, and robotic exoskeleton, need human guide. Particu...
In this paper, the trajectory generation method to make the biped robot walk in every direction on t...
[出版社版](c)2005 IEEE. Personal use of this material is permitted. However, permission to reprint/repub...
A not trivial problem in bipedal robot walking is the instability produced by the violent transition...
International audienceWe want to control an anthropomorphic biped robot to make it walk in its envir...
A not trivial problem in bipedal robot walking is the instability produced by violent transitions be...
This paper proposes a trajectory generation method for a biped robot to walk on an inclined surface....
This paper proposes a variable walking trajectory generation method for biped robots based on redund...
[[abstract]]Traditional planning of biped robot walking patterns solves optimal trajectory for minim...
The paper analyzes the mechanics of bipedal movement of a mobile robot and introduces the inverse ma...
Many recent approaches have successfully generated a stable walking pattern for biped robots, but di...
Abstract. This paper presents a method for planning three-dimensional walking patterns for biped rob...
International audienceWith the growing importance of Human-Robot Interaction (HRI), the movement of ...
This paper proposes a dynamically stable and optimal trajectory generation method for biped robots t...
This paper presents a walking pattern generation method for biped walking. There are three walking p...
Many robots, such as humanoid robot, biped robot, and robotic exoskeleton, need human guide. Particu...
In this paper, the trajectory generation method to make the biped robot walk in every direction on t...
[出版社版](c)2005 IEEE. Personal use of this material is permitted. However, permission to reprint/repub...