<p>Detecting and evaluating errors in action execution is essential for learning. Through complex interactions of the inverse and the forward model, the human motor system can predict and subsequently adjust ongoing or subsequent actions. Inputs to such a prediction are efferent and afferent signals from various sources. The aim of the current study was to examine the impact of visual as well as a combination of efferent and proprioceptive input signals to error prediction in a complex motor task. Predicting motor errors has been shown to be correlated with a neural signal known as the error-related negativity (Ne/ERN). Here, we tested how the Ne/ERN amplitude was modulated by the availability of different sensory signals in a semi-virtual ...
Our planned limb trajectories often require amendments to achieve accurate movement endpoints. Sever...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...
<p>Detecting and evaluating errors in action execution is essential for learning. Through complex in...
<p>Detecting and evaluating errors in action execution is essential for learning. Through complex in...
Detecting and evaluating errors in action execution is essential for learning. Through complex inter...
The goal of the study was to quantify error prediction processes via neural correlates in the Electr...
We have recently provided evidence that an error-related negativity (ERN), an ERP component generate...
Learning from past mistakes is of prominent importance for successful future behavior. In the presen...
Learning from past mistakes is of prominent importance for successful future behavior. In the presen...
contributed equally to this work. Learning from past mistakes is of prominent importance for success...
© 2019 the American Physiological Society. At least two distinct processes have been identified by w...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
Whether humans adjust their behavior in response to unaware errors remains a controversial issue rel...
Our planned limb trajectories often require amendments to achieve accurate movement endpoints. Sever...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...
<p>Detecting and evaluating errors in action execution is essential for learning. Through complex in...
<p>Detecting and evaluating errors in action execution is essential for learning. Through complex in...
Detecting and evaluating errors in action execution is essential for learning. Through complex inter...
The goal of the study was to quantify error prediction processes via neural correlates in the Electr...
We have recently provided evidence that an error-related negativity (ERN), an ERP component generate...
Learning from past mistakes is of prominent importance for successful future behavior. In the presen...
Learning from past mistakes is of prominent importance for successful future behavior. In the presen...
contributed equally to this work. Learning from past mistakes is of prominent importance for success...
© 2019 the American Physiological Society. At least two distinct processes have been identified by w...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
Whether humans adjust their behavior in response to unaware errors remains a controversial issue rel...
Our planned limb trajectories often require amendments to achieve accurate movement endpoints. Sever...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...