Background Active sensing is crucial for navigation. It is characterized by self-generated motor action controlling the accessibility and processing of sensory information. In rodents, active sensing is commonly studied in the whisker system. As rats and mice modulate their whisking contextually, they employ frequency and amplitude modulation. Understanding the development, mechanisms, and plasticity of adaptive motor control will require precise behavioral measurements of whisker position. Findings Advances in high-speed videography and analytical methods now permit collection and systematic analysis of large datasets. Here, we provide 6,642 videos as freely moving juvenile (third to fourth postnatal week) and adult rodents explore a stati...
Spatial attention is most often investigated in the visual modality through measurement of eye movem...
The movement of whiskers in head-fixed mice is of high interest for neurological research, as it all...
Animals actively regulate the position and movement of their sensory systems to boost the quality an...
Background: Active sensing is crucial for navigation. It is characterized by self-generated motor ac...
SummaryDuring exploration, rats and other small mammals make rhythmic back-and-forth sweeps of their...
Rats sweep their facial whiskers back and forth to generate tactile sensory information through cont...
Animals actively move their sensory organs in order to acquire sensory information. Some rodents, su...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
Rodents engage in active touch using their facial whiskers: they explore their environment by making...
<div><p>We have developed software for fully automated tracking of vibrissae (whiskers) in high-spee...
Visualization and tracking of the facial whiskers is required in an increasing number of rodent stud...
International audienceVoltage-sensitive dye imaging resolves the spatiotemporal dynamics of supragra...
Abstract. The rat whisker system may be a good model for approaching the design of robust robotic ac...
Previous studies have demonstrated that analysing whisker movements and locomotion allows us to quan...
During exploration, rats and other small mammals make rhythmic back-and-forth sweeps of their long f...
Spatial attention is most often investigated in the visual modality through measurement of eye movem...
The movement of whiskers in head-fixed mice is of high interest for neurological research, as it all...
Animals actively regulate the position and movement of their sensory systems to boost the quality an...
Background: Active sensing is crucial for navigation. It is characterized by self-generated motor ac...
SummaryDuring exploration, rats and other small mammals make rhythmic back-and-forth sweeps of their...
Rats sweep their facial whiskers back and forth to generate tactile sensory information through cont...
Animals actively move their sensory organs in order to acquire sensory information. Some rodents, su...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
Rodents engage in active touch using their facial whiskers: they explore their environment by making...
<div><p>We have developed software for fully automated tracking of vibrissae (whiskers) in high-spee...
Visualization and tracking of the facial whiskers is required in an increasing number of rodent stud...
International audienceVoltage-sensitive dye imaging resolves the spatiotemporal dynamics of supragra...
Abstract. The rat whisker system may be a good model for approaching the design of robust robotic ac...
Previous studies have demonstrated that analysing whisker movements and locomotion allows us to quan...
During exploration, rats and other small mammals make rhythmic back-and-forth sweeps of their long f...
Spatial attention is most often investigated in the visual modality through measurement of eye movem...
The movement of whiskers in head-fixed mice is of high interest for neurological research, as it all...
Animals actively regulate the position and movement of their sensory systems to boost the quality an...