TY - JOUR
T1 - THERE’S MORE TO TIMING THAN TIME
T2 - INVESTIGATING MUSICAL MICRORHYTHM ACROSS DISCIPLINES AND CULTURES
AU - Danielsen, Anne
AU - Brøvig, Ragnhild
AU - Bøhler, Kjetil Klette
AU - Câmara, Guilherme Schmidt
AU - Johansson, Mats S.
AU - Lartillot, Olivier
AU - Nymoen, Kristian
AU - Oddekalv, Kjell Andreas
AU - Sandvik, Bjørnar
AU - Sioros, George
AU - London, Justin
N1 - Publisher Copyright:
© 2024 University of California Press. All rights reserved.
PY - 2024/2/1
Y1 - 2024/2/1
N2 - THE TIME PROJECT: TIMING AND SOUND IN Musical Microrhythm (2017–2022) studied microrhythm; that is, how dynamic envelope, timbre, and center frequency, as well as the microtiming of a variety of sounds, affect their perceived rhythmic properties. The project involved theoretical work regarding the basic aspects of microrhythm; experimental studies of microrhythm perception, exploring both stimulus features and the participants’ enculturated expertise; observational studies of how musicians produce particular microrhythms; and ethnographic studies of musicians’ descriptions of microrhythm. Collectively, we show that: (a) altering the microstructure of a sound (‘‘what’’ the sound is) changes its perceived temporal location (‘‘when’’ it occurs), (b) there are systematic effects of core acoustic factors (duration, attack) on microrhythmic perception, (c) microrhythmic features in longer and more complex sounds can give rise to different perceptions of the same sound, and (d) musicians are highly aware of microrhythms and have developed vocabularies for describing them. In addition, our results shed light on conflicting results regarding the effect of microtiming on the ‘‘grooviness’’ of a rhythm. Our use of multiple, interdisciplinary methodologies enabled us to uncover the complexity of microrhythm perception and production in both laboratory and real-world musical contexts.
AB - THE TIME PROJECT: TIMING AND SOUND IN Musical Microrhythm (2017–2022) studied microrhythm; that is, how dynamic envelope, timbre, and center frequency, as well as the microtiming of a variety of sounds, affect their perceived rhythmic properties. The project involved theoretical work regarding the basic aspects of microrhythm; experimental studies of microrhythm perception, exploring both stimulus features and the participants’ enculturated expertise; observational studies of how musicians produce particular microrhythms; and ethnographic studies of musicians’ descriptions of microrhythm. Collectively, we show that: (a) altering the microstructure of a sound (‘‘what’’ the sound is) changes its perceived temporal location (‘‘when’’ it occurs), (b) there are systematic effects of core acoustic factors (duration, attack) on microrhythmic perception, (c) microrhythmic features in longer and more complex sounds can give rise to different perceptions of the same sound, and (d) musicians are highly aware of microrhythms and have developed vocabularies for describing them. In addition, our results shed light on conflicting results regarding the effect of microtiming on the ‘‘grooviness’’ of a rhythm. Our use of multiple, interdisciplinary methodologies enabled us to uncover the complexity of microrhythm perception and production in both laboratory and real-world musical contexts.
KW - beat perception
KW - groove
KW - interdisciplinarity
KW - microrhythm
KW - synchronization
UR - http://www.scopus.com/inward/record.url?scp=85184052162&partnerID=8YFLogxK
U2 - 10.1525/MP.2024.41.3.176
DO - 10.1525/MP.2024.41.3.176
M3 - Article
AN - SCOPUS:85184052162
SN - 0730-7829
VL - 41
SP - 176
EP - 198
JO - Music Perception
JF - Music Perception
IS - 3
ER -