Inferring temporal derivatives (like velocity and acceleration) from a noisy position signal is a well-known challenge in control engineering, due to the intrinsic trade-off between noise filtering and estimation bandwidth. To tackle this problem, in this paper we propose a new approach specifically designed for periodic movements. This approach uses an adaptive oscillator as fundamental building block. It is a tool capable of synchronizing to a periodic input while learning its features (frequency, amplitude, …) in dedicated state variables. Since the oscillator's input and output are perfectly synchronized during steady-state regime, a non-delayed estimate of the input temporal derivatives can be obtained simply by deriving the output ana...
© 2018 IEEE. In this paper we combine Gaussian process regression and impedance control, to illicit ...
We present a control method for a simple limit-cycle bipedal walker that uses adaptive frequency osc...
This paper presents a novel strategy aiming to acquire an accurate and walking-speed-adaptive estima...
A human with muscle weakness can wear a rehabilitation device, e.g. exoskeleton, to receive support ...
This paper provides a robustness analysis of the method we recently developed for rhythmic movement ...
We propose a novel method for movement assistance that is based on adaptive oscillators, i.e., mathe...
We propose a novel method for movement assistance which is based on adaptive oscillators, i.e. mathe...
The control of mechatronic systems can often be enhanced if realtime information on the derivatives ...
In this article, we propose a new method for providing assistance during cyclical movements. This me...
In this article, we propose a new method for providing assistance during cyclical movements. This me...
This paper presents a novel methodology for estimating the gait phase of human walking through a sim...
In this paper, we further develop our framework to design new assistance and rehabilitation protocol...
In this paper, we further develop our framework to design new assistance and rehabilitation protocol...
Parkinson's disease is a severe neurodegenerative disorder that affects sensorimotor control. In par...
In this contribution, we propose a novel approach to achieve two fundamental features of adaptive co...
© 2018 IEEE. In this paper we combine Gaussian process regression and impedance control, to illicit ...
We present a control method for a simple limit-cycle bipedal walker that uses adaptive frequency osc...
This paper presents a novel strategy aiming to acquire an accurate and walking-speed-adaptive estima...
A human with muscle weakness can wear a rehabilitation device, e.g. exoskeleton, to receive support ...
This paper provides a robustness analysis of the method we recently developed for rhythmic movement ...
We propose a novel method for movement assistance that is based on adaptive oscillators, i.e., mathe...
We propose a novel method for movement assistance which is based on adaptive oscillators, i.e. mathe...
The control of mechatronic systems can often be enhanced if realtime information on the derivatives ...
In this article, we propose a new method for providing assistance during cyclical movements. This me...
In this article, we propose a new method for providing assistance during cyclical movements. This me...
This paper presents a novel methodology for estimating the gait phase of human walking through a sim...
In this paper, we further develop our framework to design new assistance and rehabilitation protocol...
In this paper, we further develop our framework to design new assistance and rehabilitation protocol...
Parkinson's disease is a severe neurodegenerative disorder that affects sensorimotor control. In par...
In this contribution, we propose a novel approach to achieve two fundamental features of adaptive co...
© 2018 IEEE. In this paper we combine Gaussian process regression and impedance control, to illicit ...
We present a control method for a simple limit-cycle bipedal walker that uses adaptive frequency osc...
This paper presents a novel strategy aiming to acquire an accurate and walking-speed-adaptive estima...