Rhythmic and discrete movements are frequently considered separately in motor control, probably because different techniques are commonly used to study and model them. Yet the increasing interest in finding a comprehensive model for movement generation requires bridging the different perspectives arising from the study of those two types of movements. In this article, we consider discrete and rhythmic movements within the framework of motor primitives, i.e., of modular generation of movements. In this way we hope to gain an insight into the functional relationships between discrete and rhythmic movements and thus into a suitable representation for both of them. Within this framework we can define four possible categories of modeling for dis...
Online generation of trajectories in robots is a very complex task that involves the combination of ...
This study investigates a task in which discrete and rhythmic movements are combined in a single-joi...
Hoinville T, Schilling M, Cruse H. Control of rhythmic behavior: Central and Peripheral Influences t...
Abstract: Rhythmic and discrete movements are frequently considered separately in motor control, pro...
Abstract At present, rhythmic and discrete movements are investigated by largely distinct research c...
Rhythmic and discrete arm movements occur ubiquitously in everyday life, and there is a debate as to...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...
International audienceEveryday human tasks are composed of a succession of discrete and rhythmic mov...
In the literature on motor control, three theoretical perspectives on the relation between discrete ...
The differentiation of discrete and continuous movement is one of the pillars of motor behavior clas...
A central question in Neuroscience is that of how the nervous system generates the spatiotemporal co...
Vertebrates are able to quickly adapt to new environments in a very robust, seemingly effortless way...
The differentiation of discrete and continuous movement is one of the pillars of motor behavior clas...
Given the vast complexity of human actions and interactions with objects, we proposed that control o...
Online generation of trajectories in robots is a very complex task that involves the combination of ...
This study investigates a task in which discrete and rhythmic movements are combined in a single-joi...
Hoinville T, Schilling M, Cruse H. Control of rhythmic behavior: Central and Peripheral Influences t...
Abstract: Rhythmic and discrete movements are frequently considered separately in motor control, pro...
Abstract At present, rhythmic and discrete movements are investigated by largely distinct research c...
Rhythmic and discrete arm movements occur ubiquitously in everyday life, and there is a debate as to...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...
International audienceEveryday human tasks are composed of a succession of discrete and rhythmic mov...
In the literature on motor control, three theoretical perspectives on the relation between discrete ...
The differentiation of discrete and continuous movement is one of the pillars of motor behavior clas...
A central question in Neuroscience is that of how the nervous system generates the spatiotemporal co...
Vertebrates are able to quickly adapt to new environments in a very robust, seemingly effortless way...
The differentiation of discrete and continuous movement is one of the pillars of motor behavior clas...
Given the vast complexity of human actions and interactions with objects, we proposed that control o...
Online generation of trajectories in robots is a very complex task that involves the combination of ...
This study investigates a task in which discrete and rhythmic movements are combined in a single-joi...
Hoinville T, Schilling M, Cruse H. Control of rhythmic behavior: Central and Peripheral Influences t...