<p>D is mean rostrocaudal distance (± SEM) between whisker tip and rostral tip of nose, with whisker manually held in its maximal protracted position. Positive values are whisker tip rostral to nose. N, number of whiskers measured (n = 2 rats).</p
For each animal, ten longer (caudal) whiskers were chosen randomly for careful measurement. Whiskers...
<div><p>The morphology of an animal’s face will have large effects on the sensory information it can...
The morphology of an animal's face will have large effects on the sensory information it can acquire...
<p>(A) Position of the eyes, pinnae, nostrils, mouth, incisors, and bregma and lambda on the rat usi...
<p>The angles of the tracked whiskers (C1–C6) on the left side of the snout are displayed. More rost...
<p><b>A.</b> Overhead view of a head-fixed rat with whiskers C2, C1, and D1. The instantaneous whisk...
(A) Head of a deeply anesthetized rat with whisker tips tracked by DeepLabCut. Whisker tags are colo...
<p><b>Copyright information:</b></p><p>Taken from "Overlapping representations of the neck and whisk...
(A) Head of a deeply anesthetized rat. Note the thin whisker diameter of the lSO whisker. (B) Microg...
<p>Both in the model (black) and in the rat (red graph and table, p = 0.001), the mean TIP delay elo...
<p>The presented values, of both the simulations and the rat, are of TIPs induced by contacts at a r...
(A) The 3D contact point between the whisker and the object is denoted as rwobj, θwobj, and φwobj. T...
<p>(<b>A</b>) Example of free-air whisking trajectory of a single row of whiskers in a freely moving...
Skilled reaching is a complex movement in which a forelimb is extended to grasp food for eating. Vid...
Rats use their whiskers as tactile sensors to sense their environment. Active whisking, moving whisk...
For each animal, ten longer (caudal) whiskers were chosen randomly for careful measurement. Whiskers...
<div><p>The morphology of an animal’s face will have large effects on the sensory information it can...
The morphology of an animal's face will have large effects on the sensory information it can acquire...
<p>(A) Position of the eyes, pinnae, nostrils, mouth, incisors, and bregma and lambda on the rat usi...
<p>The angles of the tracked whiskers (C1–C6) on the left side of the snout are displayed. More rost...
<p><b>A.</b> Overhead view of a head-fixed rat with whiskers C2, C1, and D1. The instantaneous whisk...
(A) Head of a deeply anesthetized rat with whisker tips tracked by DeepLabCut. Whisker tags are colo...
<p><b>Copyright information:</b></p><p>Taken from "Overlapping representations of the neck and whisk...
(A) Head of a deeply anesthetized rat. Note the thin whisker diameter of the lSO whisker. (B) Microg...
<p>Both in the model (black) and in the rat (red graph and table, p = 0.001), the mean TIP delay elo...
<p>The presented values, of both the simulations and the rat, are of TIPs induced by contacts at a r...
(A) The 3D contact point between the whisker and the object is denoted as rwobj, θwobj, and φwobj. T...
<p>(<b>A</b>) Example of free-air whisking trajectory of a single row of whiskers in a freely moving...
Skilled reaching is a complex movement in which a forelimb is extended to grasp food for eating. Vid...
Rats use their whiskers as tactile sensors to sense their environment. Active whisking, moving whisk...
For each animal, ten longer (caudal) whiskers were chosen randomly for careful measurement. Whiskers...
<div><p>The morphology of an animal’s face will have large effects on the sensory information it can...
The morphology of an animal's face will have large effects on the sensory information it can acquire...
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