Vibrissa resonance as a transduction mechanism for tactile encoding. Neimark, M. A., Andermann, M. L., Hopfield, J. J., & Moore, C. I. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience, 23(16):6499–6509, July, 2003.
abstract   bibtex   
We present evidence that resonance properties of rat vibrissae differentially amplify high-frequency and complex tactile signals. Consistent with a model of vibrissa mechanics, optical measurements of vibrissae revealed that their first mechanical resonance frequencies systematically varied from low (60-100 Hz) in longer, posterior vibrissae to high ( approximately 750 Hz) in shorter, anterior vibrissae. Resonance amplification of tactile input was observed in vivo and ex vivo, and in a variety of boundary conditions that are likely to occur during perception, including stimulation of the vibrissa with moving complex natural stimuli such as sandpaper. Vibrissae were underdamped, allowing for sharp tuning to resonance frequencies. Vibrissa resonance constitutes a potentially useful mechanism for perception of high-frequency and complex tactile signals. Amplification of small amplitude signals by resonance could facilitate detection of stimuli that would otherwise fail to drive neural activity. The systematic map of frequency sensitivity across the face could facilitate texture discrimination through somatotopic encoding of frequency content. These findings suggest strong parallels between vibrissa tactile processing and auditory encoding, in which the cochlea also uses resonance to amplify low-amplitude signals and to generate a spatial map of frequency sensitivity.
@article{neimark_vibrissa_2003,
	title = {Vibrissa resonance as a transduction mechanism for tactile encoding},
	volume = {23},
	issn = {1529-2401},
	abstract = {We present evidence that resonance properties of rat vibrissae differentially amplify high-frequency and complex tactile signals. Consistent with a model of vibrissa mechanics, optical measurements of vibrissae revealed that their first mechanical resonance frequencies systematically varied from low (60-100 Hz) in longer, posterior vibrissae to high ( approximately 750 Hz) in shorter, anterior vibrissae. Resonance amplification of tactile input was observed in vivo and ex vivo, and in a variety of boundary conditions that are likely to occur during perception, including stimulation of the vibrissa with moving complex natural stimuli such as sandpaper. Vibrissae were underdamped, allowing for sharp tuning to resonance frequencies. Vibrissa resonance constitutes a potentially useful mechanism for perception of high-frequency and complex tactile signals. Amplification of small amplitude signals by resonance could facilitate detection of stimuli that would otherwise fail to drive neural activity. The systematic map of frequency sensitivity across the face could facilitate texture discrimination through somatotopic encoding of frequency content. These findings suggest strong parallels between vibrissa tactile processing and auditory encoding, in which the cochlea also uses resonance to amplify low-amplitude signals and to generate a spatial map of frequency sensitivity.},
	language = {eng},
	number = {16},
	journal = {The Journal of Neuroscience: The Official Journal of the Society for Neuroscience},
	author = {Neimark, Maria A. and Andermann, Mark L. and Hopfield, John J. and Moore, Christopher I.},
	month = jul,
	year = {2003},
	pmid = {12878691},
	pmcid = {PMC6740638},
	keywords = {Animals, Biological Clocks, Biophysical Phenomena, Biophysics, Discrimination, Psychological, In Vitro Techniques, Models, Biological, Physical Stimulation, Predictive Value of Tests, Rats, Reproducibility of Results, Surface Properties, Touch, Vibration, Vibrissae},
	pages = {6499--6509}
}

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