Hearing Research and Theory, Volume 2Academic Press, 1983 - Hearing |
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Page 13
... intermittent tone until it was some 30 dB less intense than the steady tone , yet the intermittent tone continued to cause the loudness of the steady tone to decrease . Since the effect required time to reach its full value , it may be ...
... intermittent tone until it was some 30 dB less intense than the steady tone , yet the intermittent tone continued to cause the loudness of the steady tone to decrease . Since the effect required time to reach its full value , it may be ...
Page 47
... intermittent tone . Those data are for a 4000 - Hz steady tone in the right ear and a 200 - msec tone that came on every 400 msec in the left ear . Parameter on the curves is the sound pressure level of the steady tone and of the ...
... intermittent tone . Those data are for a 4000 - Hz steady tone in the right ear and a 200 - msec tone that came on every 400 msec in the left ear . Parameter on the curves is the sound pressure level of the steady tone and of the ...
Page 48
... TONE FREQ Hz none △ 1100 1100 ON / OFF MS 200/800 200/200 O 1000 200/800 1000 200/200 50 100 150 200 DURATION OF ... intermittent tone at either 1000 Hz ( squares ) or 1100 Hz ( triangles ) went to the left ear . The on - off cycle was ...
... TONE FREQ Hz none △ 1100 1100 ON / OFF MS 200/800 200/200 O 1000 200/800 1000 200/200 50 100 150 200 DURATION OF ... intermittent tone at either 1000 Hz ( squares ) or 1100 Hz ( triangles ) went to the left ear . The on - off cycle was ...
Contents
Does Loudness Adapt? | 2 |
Previous Research | 4 |
Current Research | 19 |
Copyright | |
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Common terms and phrases
35 dB SPL acoustic afferent amplitude animals auditory nerve auditory nerve fibers auditory system basilar membrane changes chinchilla cochlea combination tones connect-disconnect consonants cues dB SPL dB/octave decrease discrimination duration effects efferent efferent excitation F2 transition Figure filter firing rate formant forward masking frequency selectivity function hair cells hearing impaired hearing loss Hensen's stripe high side high-frequency histograms IHC-TM spacing increase intensity interval Kiang latency loudness adaptation low side low-frequency measured mechanism monaural msec neurons noise exposure nonlinear normal observers obtained octave band organ of Corti pattern physiological postexposure probe frequency probe levels psychophysical tuning curves range region response Salvi sensation level sensorineural hearing loss shown in Fig signal simultaneous masking slope SNHL sound speech spikes/sec spontaneous activity spontaneous rates stereocilia stimulus studies subjects temporal threshold shift tinnitus tion tone burst variable voicing vowel wave Webster Zwislocki