Abstract. We present a general trajectory gener-ation scheme for a class of “kinematic ” legged robots. The method does not depend upon the number of legs, nor is it based on foot placement concepts. Instead, our method is based on an extension of a nonlinear trajectory generation algorithm for smooth systems to the legged case, where the relevant mechanics are not smooth. Our extension is based on the realization that legged robot configuration spaces are stratified. The algorithm is illustrated with a simple example.
This paper presents a novel trajectory generator based on Dynamic Movement Prim-itives (DMP). The ke...
Legged machines have the potential to traverse terrain that wheeled robots cannot. These capabilitie...
This paper discusses the development and application of object-oriented modeling and implementation ...
We present a general trajectory generation scheme for a class of "kinematic" legged robots. The meth...
We present a general motion planning scheme for a class of legged robots that walk in a quasi-static...
We present a general method for determining controllability of a class of kinematic legged robots. T...
We present a general method for determining con-trollability of a class of kinematic legged robots. ...
We present a single Trajectory Optimization for- mulation for legged locomotion that automatically d...
We present a general motion planning algorithm for robotic systems with a "stratified" configuration...
International audienceWe present a novel method for synthesizing collision-free, dynamic locomotion ...
Tanner, Herbert G.Solving legged robot navigation problems is challenging because of the robots' loc...
We show how motion planning and control ideas for smooth nonholonomic systems can be extended to leg...
This letter combines the fast zero-moment-point approaches that work well in practice with the broad...
International audienceThis paper presents a generic and efficient approach to generate dynamically c...
The generation of agile and dynamic motions for legged robots has long been of interest in the fiel...
This paper presents a novel trajectory generator based on Dynamic Movement Prim-itives (DMP). The ke...
Legged machines have the potential to traverse terrain that wheeled robots cannot. These capabilitie...
This paper discusses the development and application of object-oriented modeling and implementation ...
We present a general trajectory generation scheme for a class of "kinematic" legged robots. The meth...
We present a general motion planning scheme for a class of legged robots that walk in a quasi-static...
We present a general method for determining controllability of a class of kinematic legged robots. T...
We present a general method for determining con-trollability of a class of kinematic legged robots. ...
We present a single Trajectory Optimization for- mulation for legged locomotion that automatically d...
We present a general motion planning algorithm for robotic systems with a "stratified" configuration...
International audienceWe present a novel method for synthesizing collision-free, dynamic locomotion ...
Tanner, Herbert G.Solving legged robot navigation problems is challenging because of the robots' loc...
We show how motion planning and control ideas for smooth nonholonomic systems can be extended to leg...
This letter combines the fast zero-moment-point approaches that work well in practice with the broad...
International audienceThis paper presents a generic and efficient approach to generate dynamically c...
The generation of agile and dynamic motions for legged robots has long been of interest in the fiel...
This paper presents a novel trajectory generator based on Dynamic Movement Prim-itives (DMP). The ke...
Legged machines have the potential to traverse terrain that wheeled robots cannot. These capabilitie...
This paper discusses the development and application of object-oriented modeling and implementation ...