Abstract — There is much to gain from providing walking machines with passive dynamics, e.g. by including compliant elements in the structure. These elements can offer interesting properties such as self-stabilization, energy efficiency and simplified control. However, there is still no general design strategy for such robots and their controllers. In particular, the calibration of control parameters is often complicated because of the highly nonlinear behavior of the interactions between passive components and the environment. In this article, we propose an approach in which the calibration of a key parameter of a walking controller, namely its intrinsic frequency, is done automatically. The approach uses adaptive frequency oscillators to ...
We present a control method for a simple limit-cycle bipedal walker that uses adaptive frequency osc...
In this paper, we introduce a framework for learning biped locomotion using dynamical movement primi...
We address the problem of generating and stabilising a periodic walking pattern for a biped robot. A...
There is much to gain from providing walking machines with passive dynamics, e.g. by including compl...
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...
In this contribution we present experiments of an adaptive locomotion controller on a compliant quad...
We demonstrate an adaptation strategy for adjusting the stride period in a hexapedal running robot. ...
Rhythmic neural signals serve as basis of many brain processes, in particular of locomotion control ...
Rhythmic neural signals serve as basis of many brain processes, in particular of locomotion control ...
Abstract: In this paper we regard legged locomotion (e.g., running) as adaptive vibration, which is ...
In this thesis, we present a dynamical systems approach to adaptive controllers for locomotion contr...
In the early days of robotics, hardware compliance used to be regarded as a drawback, reducing the p...
Oscillatory movements play important roles in human life, various movements in human life, such as w...
We are presenting a novel adaptive oscillator, called Adaptive Natural Oscillator (ANO), to exploit ...
We present a control method for a simple limit-cycle bipedal walker that uses adaptive frequency osc...
In this paper, we introduce a framework for learning biped locomotion using dynamical movement primi...
We address the problem of generating and stabilising a periodic walking pattern for a biped robot. A...
There is much to gain from providing walking machines with passive dynamics, e.g. by including compl...
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...
In this contribution we present experiments of an adaptive locomotion controller on a compliant quad...
We demonstrate an adaptation strategy for adjusting the stride period in a hexapedal running robot. ...
Rhythmic neural signals serve as basis of many brain processes, in particular of locomotion control ...
Rhythmic neural signals serve as basis of many brain processes, in particular of locomotion control ...
Abstract: In this paper we regard legged locomotion (e.g., running) as adaptive vibration, which is ...
In this thesis, we present a dynamical systems approach to adaptive controllers for locomotion contr...
In the early days of robotics, hardware compliance used to be regarded as a drawback, reducing the p...
Oscillatory movements play important roles in human life, various movements in human life, such as w...
We are presenting a novel adaptive oscillator, called Adaptive Natural Oscillator (ANO), to exploit ...
We present a control method for a simple limit-cycle bipedal walker that uses adaptive frequency osc...
In this paper, we introduce a framework for learning biped locomotion using dynamical movement primi...
We address the problem of generating and stabilising a periodic walking pattern for a biped robot. A...
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