Latent force models encode the interaction between multiple related dynamical systems in the form of a kernel or covariance function. Each variable to be modeled is represented as the output of a differential equation and each differential equation is driven by a weighted sum of latent functions with uncertainty given by a Gaussian process prior. In this paper we consider employing the latent force model framework for the problem of determining robot motor primitives. To deal with discontinuities in the dynamical systems or the latent driving force we introduce an extension of the basic latent force model, that switches between different latent functions and potentially different dynamical systems. This creates a versatile representation fo...
A novel approach to the modelling of robot manipulators is presented. System descriptions based on a...
It is well known that signals encoded by mechanoreceptors facilitate precise object manipulation in ...
This research aims to understand the fundamental dynamic behavior of servo-controlled machinery in ...
Latent force models encode the interaction between multiple related dynamical systems in the form of...
Latent force models encode the interaction between multiple related dynamical systems in the form of...
In this work a different probabilistic motor primitive parameterization is proposed using latent for...
The movement representation problem is at the core of areas such as robot imitation learning and mo...
An approach for the identification of discontinuous and nonsmooth nonlinear forces, as those generat...
Force signals provide essential information for manipulation. This thesis focuses on monitoring the...
Purely data-driven approaches for machine learning present difficulties when data are scarce relativ...
Latent force models (LFM) are a class of flexible models of dynamic systems, combining a simple mecha...
Purely data-driven approaches for machine learning present difficulties when data are scarce relativ...
Mutual interaction between biology and robots can significantly benefit both fields. The richness an...
<div><p>Physical human–robot interaction tasks require robots that can detect and react to external ...
Abstract — Physical interaction in robotics is a complex prob-lem that requires not only accurate re...
A novel approach to the modelling of robot manipulators is presented. System descriptions based on a...
It is well known that signals encoded by mechanoreceptors facilitate precise object manipulation in ...
This research aims to understand the fundamental dynamic behavior of servo-controlled machinery in ...
Latent force models encode the interaction between multiple related dynamical systems in the form of...
Latent force models encode the interaction between multiple related dynamical systems in the form of...
In this work a different probabilistic motor primitive parameterization is proposed using latent for...
The movement representation problem is at the core of areas such as robot imitation learning and mo...
An approach for the identification of discontinuous and nonsmooth nonlinear forces, as those generat...
Force signals provide essential information for manipulation. This thesis focuses on monitoring the...
Purely data-driven approaches for machine learning present difficulties when data are scarce relativ...
Latent force models (LFM) are a class of flexible models of dynamic systems, combining a simple mecha...
Purely data-driven approaches for machine learning present difficulties when data are scarce relativ...
Mutual interaction between biology and robots can significantly benefit both fields. The richness an...
<div><p>Physical human–robot interaction tasks require robots that can detect and react to external ...
Abstract — Physical interaction in robotics is a complex prob-lem that requires not only accurate re...
A novel approach to the modelling of robot manipulators is presented. System descriptions based on a...
It is well known that signals encoded by mechanoreceptors facilitate precise object manipulation in ...
This research aims to understand the fundamental dynamic behavior of servo-controlled machinery in ...