In this paper, we introduce a framework for learning biped locomotion using dynamical movement primitives based on non-linear oscillators. Our ultimate goal is to establish a design principle of a controller in order to achieve natural human-like locomotion. We suggest dynamical movement primitives as a central pattern generator (CPG) of a biped robot, an approach we have previously proposed for learning and encoding complex human movements. Demonstrated trajectories are learned through movement primitives by locally weighted regression, and the frequency of the learned trajectories is adjusted automatically by a novel frequency adaptation algorithm based on phase resetting and entrainment of coupled oscillators. Numerical simulations and e...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
This paper proposes a CPG-based control architecture using a frequency-adaptive oscillator for undul...
We address the problem of generating and stabilising a periodic walking pattern for a biped robot. A...
International audienceNeurobiological studies showed the important role of Cen- teral Pattern Genera...
Modern concepts of motor learning favour intensivetrainingdirectedtotheneuralnetworksstimulation and...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
Generating biped locomotion patterns is a difficult task because maintaining balance on two legs is ...
Central Pattern Generator (CPG) developed from nervous system is used for a trajectory generation me...
This paper discusses a comprehensive framework for modular motor control based on a recently develop...
In this contribution, we propose a novel approach to achieve two fundamental features of adaptive co...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
An approach addressing biped locomotion optimization is here introduced. Concepts from Central Patte...
This paper describes the designing of a nonlinear biological controller inspired from stable human g...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
This paper proposes a CPG-based control architecture using a frequency-adaptive oscillator for undul...
We address the problem of generating and stabilising a periodic walking pattern for a biped robot. A...
International audienceNeurobiological studies showed the important role of Cen- teral Pattern Genera...
Modern concepts of motor learning favour intensivetrainingdirectedtotheneuralnetworksstimulation and...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
Generating biped locomotion patterns is a difficult task because maintaining balance on two legs is ...
Central Pattern Generator (CPG) developed from nervous system is used for a trajectory generation me...
This paper discusses a comprehensive framework for modular motor control based on a recently develop...
In this contribution, we propose a novel approach to achieve two fundamental features of adaptive co...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
An approach addressing biped locomotion optimization is here introduced. Concepts from Central Patte...
This paper describes the designing of a nonlinear biological controller inspired from stable human g...
This article addresses the problem of how modular robotics systems, i.e. Systems composed of multipl...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
This paper proposes a CPG-based control architecture using a frequency-adaptive oscillator for undul...