Add to ORKGAbstract — Humanoid robots possess the capability of step-ping over or onto objects, which distinguishes them from wheeled robots. When planning paths for humanoids, one therefore should consider an intelligent placement of footsteps instead of choosing detours around obstacles. In this paper, we present an approach to optimal footstep planning for humanoid robots. Since changes in the environment may appear and a humanoid may deviate from its originally planned path due to imprecise motion execution or slippage on the ground, the robot might be forced to dynamically revise its plans. Thus, efficient methods for planning and replanning are needed to quickly adapt the footstep paths to new situations. We formulate the problem of footstep pla...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
Abstract—In this paper, we propose a novel and coherent frame-work for fast footstep planning for le...
Despite the recent achievements in stable dynamic walking for many humanoid robots, relatively littl...
Humanoid robots posses the unique ability to cross obstacles by stepping over or upon them. However,...
Planning the motion for humanoid robots is a computationally-complex task due to the high dimensiona...
Abstract — In this paper, we present an integrated navigation system that allows humanoid robots to ...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
This paper proposes the necessity of a walking period in footstep planning and details situations in...
International audienceIn this paper we introduce a new bounding box method for footstep planning for...
International audienceIn this paper we introduce a new bounding box method for footstep planning for...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
Abstract — Despite the stable walking capabilities of modern biped humanoid robots, their ability to...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
Abstract—In this paper, we propose a novel and coherent frame-work for fast footstep planning for le...
Despite the recent achievements in stable dynamic walking for many humanoid robots, relatively littl...
Humanoid robots posses the unique ability to cross obstacles by stepping over or upon them. However,...
Planning the motion for humanoid robots is a computationally-complex task due to the high dimensiona...
Abstract — In this paper, we present an integrated navigation system that allows humanoid robots to ...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
This paper proposes the necessity of a walking period in footstep planning and details situations in...
International audienceIn this paper we introduce a new bounding box method for footstep planning for...
International audienceIn this paper we introduce a new bounding box method for footstep planning for...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
Abstract — Despite the stable walking capabilities of modern biped humanoid robots, their ability to...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
Abstract—In this paper, we propose a novel and coherent frame-work for fast footstep planning for le...