Hearing Research and Theory, Volume 2Academic Press, 1983 - Hearing |
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Page 216
... signal would be saturated all of the time and thus unable to signal a change in loudness upon the introduction of the test signal . Under such conditions , listeners were still able to make loudness judg- ments over an 80 - dB range ...
... signal would be saturated all of the time and thus unable to signal a change in loudness upon the introduction of the test signal . Under such conditions , listeners were still able to make loudness judg- ments over an 80 - dB range ...
Page 284
... signal interactions which produce beats and har- monic and intermodulation distortion products . A second and less common criti- cism of simultaneous masking studies is energy splatter of the probe signal . In most simultaneous masking ...
... signal interactions which produce beats and har- monic and intermodulation distortion products . A second and less common criti- cism of simultaneous masking studies is energy splatter of the probe signal . In most simultaneous masking ...
Page 324
... signal intensity and signal frequen- cy . In addition , at frequencies of 200 and 800 Hz , the function relating the frequency difference limen to the frequency of the signal was nonmonotonic . That is at sensation levels ranging from 5 ...
... signal intensity and signal frequen- cy . In addition , at frequencies of 200 and 800 Hz , the function relating the frequency difference limen to the frequency of the signal was nonmonotonic . That is at sensation levels ranging from 5 ...
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