Basic Mechanisms in HearingAage R. Møller, Pamela Boston Basic Mechanisms in Hearing ... |
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Page 231
... spike propagation in the spiral fibers ? Secondly what does your engineer mean by " analog integration " in his model of the innervation of inner hair cells ? SPOENDLIN : Spatial integration is very unlikely since all nerve fibers are ...
... spike propagation in the spiral fibers ? Secondly what does your engineer mean by " analog integration " in his model of the innervation of inner hair cells ? SPOENDLIN : Spatial integration is very unlikely since all nerve fibers are ...
Page 515
... spikes when it is presented alone . ( 5 ) There is a need to differentiate between thres- hold for spike discharges for a given frequency and the threshold for interaction of this frequency in the complex periodic sound . The latter can ...
... spikes when it is presented alone . ( 5 ) There is a need to differentiate between thres- hold for spike discharges for a given frequency and the threshold for interaction of this frequency in the complex periodic sound . The latter can ...
Page 640
... spike number per stim- ulus duration , 2 ) stability of spike number in the train ( no adaptation ) ( Table 4 ) . In Fig . 9 the values for optimal rates of AM noise bursts established according to the maximal spike number per burst are ...
... spike number per stim- ulus duration , 2 ) stability of spike number in the train ( no adaptation ) ( Table 4 ) . In Fig . 9 the values for optimal rates of AM noise bursts established according to the maximal spike number per burst are ...
Contents
COCHLEAR MECHANICS | 4 |
Cochlear Nonlinearities | 11 |
An Investigation of PostMortem | 49 |
Copyright | |
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Acoust Acta activity afferent Amer amplitude animal auditory nerve auditory neurons auditory system axons basilar membrane Békésy best frequency brane coch cochlear microphonic cochlear nerve cochlear nucleus cochlear potentials component cont'd Dallos dB SPL dendrites discharge displacement effect efferent electrical electrode excitatory area experiments FM sounds function guinea pig histograms Honrubia inhibition inhibitory area inner ear inner hair cells Johnstone Katsuki Kiang Kohllöffel latency lateral line lateral-line nerve linear measured mechanical modulation msec neural neurons noise bursts nonlinear normal organ of Corti ouabain outer hair cells peak perilymph phase Physiol Physiology postsynaptic pulse trains pure tone quency receptor recording region response patterns scala tympani sensory signal single sound pressure level spike spiral Spoendlin stimulation Suga synapses threshold tion tone bursts Tonndorf tuning curves units wave