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• 14:22, 23 July 2008 (diff | hist) Category:Brain Imaging of Communication Sound Processing ‎
• 14:16, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 14:13, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 14:12, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 14:11, 21 July 2008 (diff | hist) N File:IP2008JASA Table 01.png ‎ (Table I. Results of an ANOVA of performance data. There is one significant (P<0.01) main effects and one significant interaction, both of which are shown in bold type; they are ALC, and FO×ALC.) (top)
• 14:07, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 14:03, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 14:02, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 14:01, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 13:59, 21 July 2008 (diff | hist) Category:Perception of Communication Sounds ‎
• 13:56, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 08.png ‎ (Comparison of the experimental results with pitch-strength estimates from the dual profile model, based on a gammatone auditory filterbank, for an F0 of 75 Hz (black lines) and 300 Hz (grey lines). Dashed lines are the average experimental data plotted u) (top)
• 13:56, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 07.png ‎ (Dual profiles produced with the GT-AFB for stimuli with F0s of 75 and 300 Hz. Panels (a) – (h) show the profiles for an F0 of 75 Hz and panels (i) – (p) show the profiles for an F0 of 300 Hz. Each row shows dual profiles with a constant NC; the valu) (top)
• 13:55, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 06.png ‎ (The dual profile for a stimulus with four resolved harmonics: NC = 4, ALC = 3, and F0 = 300 Hz. The temporal profile is the blue (dark) line and the spectral profile is the red (light gray) line. The F0 is represented in the temporal profile by the loca) (top)
• 13:55, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 05.png ‎ (Performance on the melody task in the ancillary experiments with the 75-Hz fundamental (black lines) and the 300-Hz fundamental (grey lines). The abscissa shows the average lowest component and the ordinate shows the probability of the listener correctly) (top)
• 13:55, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 04.png ‎ (Performance on the melody task with the 75-Hz and 300-Hz fundamentals. The abscissa shows the average lowest component and the ordinate shows the probability of the listener correctly identifying the note which changed. Performance is plotted for each NC) (top)
• 13:54, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 03.png ‎ (Schematic of the procedure of the melody task, adapted from Patterson et al. (1983). One note changes by a single diatonic interval between the first and second presentations of the melody, and the listener has to identify the changed note, marked here by) (top)
• 13:54, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 02.png ‎ (Stabilized Auditory Images (SAI) of four harmonic complexes. All stimuli have eight consecutive harmonics; they differ in their fundamentals and lowest components. (a) F0 = 75 Hz, harmonics 11 to 18; (b) F0 = 75 Hz, harmonics 3 to 10; (c) F0 = 300 Hz, ha) (top)
• 13:41, 21 July 2008 (diff | hist) N File:IP2008JASA Figure 01.png ‎ (Neural activity patterns (NAPs) for harmonic complex sounds composed of the third to tenth harmonics of (a) an F0 of 300 Hz, and (b) an F0 of 75 Hz. Side panels show the spectral profiles (vertical) and temporal profiles (horizontal) of the NAP.) (top)
• 10:51, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:51, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:49, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:47, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:47, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:46, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:45, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:44, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:44, 21 July 2008 (diff | hist) Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎
• 10:44, 21 July 2008 (diff | hist) N Pitch strength decreases as F0 and harmonic resolution increase in complex tones composed exclusively of high harmonics ‎ (New page: ABSTRACT A melodic pitch experiment was performed to demonstrate the importance of time-interval resolution for pitch strength. The experiments show that notes with a low fundamental (75 H...)
• 10:43, 21 July 2008 (diff | hist) Category:Perception of Communication Sounds ‎
• 15:27, 7 July 2008 (diff | hist) The syllable database ‎
• 15:23, 7 July 2008 (diff | hist) The syllable database ‎
• 15:20, 7 July 2008 (diff | hist) The syllable database ‎
• 15:13, 7 July 2008 (diff | hist) The syllable database ‎
• 15:10, 7 July 2008 (diff | hist) The syllable database ‎
• 15:09, 7 July 2008 (diff | hist) The syllable database ‎
• 15:09, 7 July 2008 (diff | hist) The syllable database ‎
• 15:09, 7 July 2008 (diff | hist) The syllable database ‎
• 15:08, 7 July 2008 (diff | hist) The syllable database ‎
• 15:06, 7 July 2008 (diff | hist) N File:Database.png ‎ (top)
• 15:00, 7 July 2008 (diff | hist) The syllable database ‎
• 14:59, 7 July 2008 (diff | hist) The syllable database ‎
• 14:59, 7 July 2008 (diff | hist) N File:P-centre seq.mp3 ‎ (top)
• 14:55, 7 July 2008 (diff | hist) N The syllable database ‎ (New page: {{BACK|:Category:Sounds}}Category:Sounds '''The syllable database''' is the database of speech syllables that was developed at the Centre for the Neural Basis of Hearing at the Univer...)
• 14:51, 7 July 2008 (diff | hist) Introduction to the content of the wiki ‎
• 14:50, 7 July 2008 (diff | hist) Introduction to the content of the wiki ‎
• 12:09, 17 June 2008 (diff | hist) Musical Rain ‎
• 12:08, 17 June 2008 (diff | hist) Musical Rain ‎
• 12:08, 17 June 2008 (diff | hist) N File:VW sequence.mp3 ‎ (top)
• 12:08, 17 June 2008 (diff | hist) N File:MR sequence.mp3 ‎ (top)
• 12:04, 17 June 2008 (diff | hist) Musical Rain ‎

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