Dissociation of pitch from timbre in auditory short-term memory

Semal, Catherine; Demany, Laurent

doi:10.1121/1.400928

Cited by 104 publications

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“…Pitch and timbre are found to influence each other when methodologies that present tones in the absence of a tonal context are used, such as comparing a single tone with another single tone by tuning (Platt & Racine, 1985), making qualitative judgments (Sing & Hirsh, 1992;Wapnick & Freeman, 1980), or classifying single tones into categories (Krumhansl & Iverson, 1992, Experiment 1;Melara & Marks, 1990a, 1990b, 1990c. In contrast, no evidence of an interaction is found by those studies that present tones in the context of other tones, as when interpolating tones are manipulated (Semal & Demany, 1991, 1993Starr & Pitt, 1997) or the fourth tones of two seven-tone sequences are compared, a modified interpolated tone paradigm (Krumhansl & Iverson, 1992, Experiments 2 and 3).…”

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confidence: 58%

“…Some researchers have found that the timbre of a tone affects its perceived pitch (e.g., Krumhansl & Iverson, 1992, Experiment 1; Melara & Marks, 1990a, 1990b, 1990cPlatt & Racine, 1985;Singh & Hirsh, 1992;Wapnick & Freeman, 1980), whereas others have found no effect of timbre on pitch perception (e.g., Krumhansl & Iverson, 1992, Experiments 2 and 3; Semal & Demany 1991, 1993. It seems that those studies presenting tones in the absence of other tones tend to find an interaction between pitch and timbre, whereas studies presenting tones within the context of other tones find no such interaction (but see also , in which pitch and timbre difference thresholds for isolated tones were not affected by variation in the irrelevant dimension).…”

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Influence of tonal context and timbral variation on perception of pitch

Warrier

Zatorre

2002

Perception & Psychophysics

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Pitch and timbre are two of the building blocks of music. Variations in pitch lead to a melodic line, whereas variations of timbre are usually heard as different instrumentations. Do pitch and timbre interact? Listening to an orchestra, one can hear a continuous melody being played when different instruments switch off playing separate parts of this melody, even if each note of the melody is played by a different instrument, a compositional style called klangfarbenmelodieor hocket. A more striking demonstrationof this phenomenon occurs with sung melodies, in which the changing vocal timbres associated with speech do not alter perception of the melody. This implies that one can follow the fundamental frequency (F0) of a series of tones, even when their spectral shapes differ, which argues for the separability of pitch and timbre. However, since both pitch and spectral timbre are rooted in the frequency dimension of sound, it should not be surprising if they interact under some circumstances. To test this idea, one could look at people's perceptions of pitch and/or timbre when both the F0 and the spectral shape of the tones differ. This paper investigates the interaction between pitch and timbre, focusing on spectral timbre's influence on pitch perception as a function of context.The literature in which interactions between pitch and timbre are examined has yielded contradictory results. Some researchers have found that the timbre of a tone affects its perceived pitch (e.g., Krumhansl & Iverson, 1992, Experiment 1;Melara & Marks, 1990a, 1990b, 1990cPlatt & Racine, 1985;Singh & Hirsh, 1992;Wapnick & Freeman, 1980), whereas others have found no effect of timbre on pitch perception (e.g., Krumhansl & Iverson, 1992, Experiments 2 and 3;Semal & Demany 1991, 1993. It seems that those studies presenting tones in the absence of other tones tend to find an interaction between pitch and timbre, whereas studies presenting tones within the context of other tones find no such interaction (but see also , in which pitch and timbre difference thresholds for isolated tones were not affected by variation in the irrelevant dimension).A same-different paradigm was used by Singh and Hirsh (1992) to determine the perceived pitch of isolated residue tones, tones having no component at F0. Six timbres were synthesized, each containing four consecutive harmonics, the lowest of which could be the second, third, fourth, or up to the seventh harmonic. Each pair of tones could differ in F0, spectral composition, or both. Subjects indicated whether timbre was the same or different, and whether pitch stayed the same, went up, or went down. When the harmonic numbers and F0 moved in the same direction, subjects correctly reported the direction of pitch change. However, when harmonic number and F0 moved in opposite directions, this created a conflict. If the change in F0 was 4% or greater, the direction of F0 change dominated pitch judgments. However, when the change in F0 was less than 4%, the direction of harmonic change dominated pitch judgmen...

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Influence of tonal context and timbral variation on perception of pitch

Warrier

Zatorre

2002

Perception & Psychophysics

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“…The paradigm used by Deutsch (1970) to establish the dissociation between pitch memory and phonological memory has also been used to establish the separation between pitch and timbre. Semal and Demany (1991) demonstrated that varying the timbre of material interpolated in a retention interval had no impact upon pitch recognition judgments. Starr and Pitt (1997) showed that recognition memory for timbre is sensitive to interference from the timbre of intervening stimuli and that varying the pitch of intervening stimuli has no impact upon timbre recognition.…”

Section: Methodsmentioning

confidence: 99%

Temporal interval production and short-term memory

Field

Groeger

2004

Perception & Psychophysics

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“…Behavioral research using in particular the interference paradigm introduced by Deutsch (1970) has shown that different auditory attributes are represented separately in auditory sensory memory as, for example, pitch and timbre (Krumhansl & Iverson, 1992;Semal & Demany, 1991) or pitch and loudness (Clément, Demany, & Semal, 1999). At the neurophysiological level, auditory sensory memory organization has mostly been studied using the MMN component of the ERP (Näätänen, Gaillard, & Mantysalo, 1978) and its magnetic counterpart denoted MMNm.…”

Section: Representation Of Auditory Attributes In Sensory Memorymentioning

confidence: 99%

Separate Neural Processing of Timbre Dimensions in Auditory Sensory Memory

Caclin

Brattico

Tervaniemi

et al. 2006

Journal of Cognitive Neuroscience

103

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Abstract& Timbre is a multidimensional perceptual attribute of complex tones that characterizes the identity of a sound source. Our study explores the representation in auditory sensory memory of three timbre dimensions (acoustically related to attack time, spectral centroid, and spectrum fine structure), using the mismatch negativity (MMN) component of the auditory event-related potential. MMN is elicited by a discriminable change in a sound sequence and reflects the detection of the discrepancy between the current stimulus and traces in auditory sensory memory. The stimuli used in the present study were carefully controlled synthetic tones. MMNs were recorded after changes along each of the three timbre dimensions and their combinations. Additivity of unidimensional MMNs and dipole modeling results suggest partially separate MMN generators for different timbre dimensions, reflecting their mainly separate processing in auditory sensory memory. The results expand to timbre dimensions a property of separation of the representation in sensory memory that has already been reported between basic perceptual attributes (pitch, loudness, duration, and location) of sound sources. &

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Dissociation of pitch from timbre in auditory short-term memory

Cited by 104 publications

References 0 publications

Influence of tonal context and timbral variation on perception of pitch

Influence of tonal context and timbral variation on perception of pitch

Temporal interval production and short-term memory

Separate Neural Processing of Timbre Dimensions in Auditory Sensory Memory

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