2006
DOI: 10.1523/jneurosci.1516-06.2006
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Haptic Object Localization in the Vibrissal System: Behavior and Performance

Abstract: Using their large mystacial vibrissas, rats perform a variety of tasks, including localization and identification of objects. We report on the discriminatory thresholds and behavior of rats trained in a horizontal object localization task. Using an adaptive training procedure, rats learned to discriminate offsets in horizontal (anteroposterior) location with all, one row, or one arc of whiskers intact, but not when only a single whisker (C2) was intact on each cheek. However, rats initially trained with multip… Show more

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Cited by 205 publications
(241 citation statements)
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“…Our head-fixed animals did not whisk in the foveal range (15-20 Hz), so additional data points were obtained from two separate studies. The first dataset involved unrestrained rats whisking in air (n ϭ 20) , and the second used unrestrained rats whisking in air during an object localization task (n ϭ 150) (P. M. Knutsen, M. Pietr, and E. Ahissar, unpublished observations) (for methods, see Knutsen et al 2005Knutsen et al , 2006. The behavioral data have comparable boundaries with the estimated behavioral limits at all frequencies and exhibit the same trend toward smaller, protracted whisks at higher frequencies.…”
Section: Application Of the Model: Constraints On Whisking Kinematicsmentioning
confidence: 99%
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“…Our head-fixed animals did not whisk in the foveal range (15-20 Hz), so additional data points were obtained from two separate studies. The first dataset involved unrestrained rats whisking in air (n ϭ 20) , and the second used unrestrained rats whisking in air during an object localization task (n ϭ 150) (P. M. Knutsen, M. Pietr, and E. Ahissar, unpublished observations) (for methods, see Knutsen et al 2005Knutsen et al , 2006. The behavioral data have comparable boundaries with the estimated behavioral limits at all frequencies and exhibit the same trend toward smaller, protracted whisks at higher frequencies.…”
Section: Application Of the Model: Constraints On Whisking Kinematicsmentioning
confidence: 99%
“…Motivated by evidence that the range of whisking amplitudes is diminished for large offset angles and high values of whisking frequency (Carvell and Simons, 1995;Berg and Kleinfeld, 2003;Knutsen et al, 2006), we analyzed the available range of whisk amplitudes and set points, defined here as the point of maximal retraction, within the context of our model. Our strategy was to use all possible realistic patterns of muscle activity as input for the model to determine the bounds on its range of motion.…”
Section: Application Of the Model: Constraints On Whisking Kinematicsmentioning
confidence: 99%
“…Active exploration involves head movements; thus, even if a whisker repeats its scanning pattern from cycle to cycle, it may not sample the same location in different cycles (Knutsen et al, 2005(Knutsen et al, , 2006. Therefore, even if input signals are identical from cycle to cycle, they convey new information in world coordinates (Ahissar and Zacksenhouse, 2001).…”
Section: Touch-specific Adaptationmentioning
confidence: 99%
“…To obtain sensory information, rat whiskers move forth and back with a rhythmic motion (whisking) at 4 -25 Hz (Welker, 1964;Carvell and Simons, 1990;Fanselow and Nicolelis, 1999;Kleinfeld et al, 1999;Berg and Kleinfeld, 2003;Knutsen et al, 2006). Experimentally, deflections of passive whiskers can be useful for studying responses that occur during behavioral epochs in which the whiskers are not actively moved, such as when running along walls without whisking.…”
Section: Introductionmentioning
confidence: 99%
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