This paper presents a method for learning the parameters of rhythmic walking to generate pur-posive humanoid motions. The controller consists of the two layers: rhythmic walking is realized by the lower layer, which adjusts the speed of the phase on the desired trajectory depending on sensory information, and the upper layer learns (1) the feasible parameter sets that enable stable walking, (2) the causal relationship between the walking parameters to be given to the lower-layer controller and the change in the sensory information, and (3) the feasible rhythmic walking parameters by reinforcement learning so that a robot can reach to the goal based on visual information. The ex-perimental results show that a real humanoid learns to reach th...
International audienceThis paper presents a visual servoing scheme to control humanoid dynamic walk....
We investigate learning of flexible robot locomotion controllers, i.e., the controllers should be ap...
International audienceWe present here a detailed description of the walking algorithm that was desig...
This paper presents a method for learning the parameters of rhythmic walking to generate a purposive...
AbstractThis paper demonstrates application of Reinforcement Learning to optimization of control of ...
Pure reinforcement learning does not scale well to domains with many degrees of freedom and particul...
Development of the motion selection rule for a biped walking robot by human is difficult because it ...
The identification of learning mechanisms for locomotion has been the subject of much researchfor so...
The identification of learning mechanisms for locomotion has been the subject of much research for s...
Abstract. This paper presents a novel dynamic control approach to acquire biped walking of humanoid ...
In ZMP trajectory generation using simple models, often a considerable amount of trials and errors a...
Direct transfer of human motion trajectories to humanoid robots does not result in dynamically stabl...
Research Doctorate - Doctor of Philosophy (PhD)The proficiency of humanoid robot movement, which is ...
Service robots have the potential to be of great value in households, health care and other labor in...
This paper discusses a comprehensive framework for modular motor control based on a recently develop...
International audienceThis paper presents a visual servoing scheme to control humanoid dynamic walk....
We investigate learning of flexible robot locomotion controllers, i.e., the controllers should be ap...
International audienceWe present here a detailed description of the walking algorithm that was desig...
This paper presents a method for learning the parameters of rhythmic walking to generate a purposive...
AbstractThis paper demonstrates application of Reinforcement Learning to optimization of control of ...
Pure reinforcement learning does not scale well to domains with many degrees of freedom and particul...
Development of the motion selection rule for a biped walking robot by human is difficult because it ...
The identification of learning mechanisms for locomotion has been the subject of much researchfor so...
The identification of learning mechanisms for locomotion has been the subject of much research for s...
Abstract. This paper presents a novel dynamic control approach to acquire biped walking of humanoid ...
In ZMP trajectory generation using simple models, often a considerable amount of trials and errors a...
Direct transfer of human motion trajectories to humanoid robots does not result in dynamically stabl...
Research Doctorate - Doctor of Philosophy (PhD)The proficiency of humanoid robot movement, which is ...
Service robots have the potential to be of great value in households, health care and other labor in...
This paper discusses a comprehensive framework for modular motor control based on a recently develop...
International audienceThis paper presents a visual servoing scheme to control humanoid dynamic walk....
We investigate learning of flexible robot locomotion controllers, i.e., the controllers should be ap...
International audienceWe present here a detailed description of the walking algorithm that was desig...