Sensory signals are often caused by one's own active movements. This raises a problem of discriminating between self-generated sensory signals and signals generated by the external world. Such discrimination is of general importance for robotic systems, where operational robustness is dependent on the correct interpretation of sensory signals. Here, we investigate this problem in the context of a whiskered robot. The whisker sensory signal comprises two components: one due to contact with an object (externally generated) and another due to active movement of the whisker (self-generated). We propose a solution to this discrimination problem based on adaptive noise cancelation, where the robot learns to predict the sensory consequences of its...
We describe a novel, biomimetic tactile sensing system modeled on the facial whiskers (vibrissae) of...
Harischandra N, Dürr V. Predictions of self-induced mechanoreceptive sensor readings in an insect-in...
Texture perception is studied here in a physical model of the rat whisker system consisting of a rob...
Sensory signals are often caused by ones own active movements. This raises a problem of discriminati...
The cerebellum is thought to implement internal models for sensory prediction, but details of the un...
The cerebellum is thought to implement internal models for sensory prediction, but details of the un...
Actuated artificial whiskers modeled on rat macrovibrissae can provide effective tactile sensor syst...
<p>Novelty detection algorithms applied to periodic signals recorded from the whisking robot for a 1...
Whiskered mammals such as rats are experts in tactile perception. By actively palpating surfaces wit...
© 2016 IEEE. We present an adaptive filter model of cerebellar function applied to the calibration o...
Active vibrissal touch can be used to replace or to supplement sensory systems such as computer visi...
The rodent vibrissal (whisker) system is one of the most widely investigated model sensory systems ...
We describe a novel, biomimetic tactile sensing system modeled on the facial whiskers (vibrissae) of...
Harischandra N, Dürr V. Predictions of self-induced mechanoreceptive sensor readings in an insect-in...
Texture perception is studied here in a physical model of the rat whisker system consisting of a rob...
Sensory signals are often caused by ones own active movements. This raises a problem of discriminati...
The cerebellum is thought to implement internal models for sensory prediction, but details of the un...
The cerebellum is thought to implement internal models for sensory prediction, but details of the un...
Actuated artificial whiskers modeled on rat macrovibrissae can provide effective tactile sensor syst...
<p>Novelty detection algorithms applied to periodic signals recorded from the whisking robot for a 1...
Whiskered mammals such as rats are experts in tactile perception. By actively palpating surfaces wit...
© 2016 IEEE. We present an adaptive filter model of cerebellar function applied to the calibration o...
Active vibrissal touch can be used to replace or to supplement sensory systems such as computer visi...
The rodent vibrissal (whisker) system is one of the most widely investigated model sensory systems ...
We describe a novel, biomimetic tactile sensing system modeled on the facial whiskers (vibrissae) of...
Harischandra N, Dürr V. Predictions of self-induced mechanoreceptive sensor readings in an insect-in...
Texture perception is studied here in a physical model of the rat whisker system consisting of a rob...