Perception–production Relationships and Phase Correction in Synchronization with Two-interval Rhythms Rhythmic Regularity and Sensorimotor Synchronization

Two experiments investigated the effects of interval duration ratio on perception of local timing perturbations, accuracy of rhythm production, and phase correction in musicians listening to or tapping in synchrony with cyclically repeated auditory two-interval rhythms. Ratios ranged from simple (1:2) to complex (7:11, 5:13), and from small (5:13 = 0.38) to large (6:7 = 0.86). Rhythm production and perception exhibited similar ratio-dependent biases: rhythms with small ratios were produced with increased ratios, and timing perturbations in these rhythms tended to be harder to detect when they locally increased the ratio than when they reduced it. The opposite held for rhythms with large ratios. This demonstrates a close relation between rhythm perception and production. Unexpectedly, however, the neutral “attractor” was not the simplest ratio (1:2 = 0.50) but a complex ratio near 4:7 (= 0.57). Phase correction in response to perturbations was generally rapid and did not show the ratio-dependent biases observed in rhythm perception and production. Thus, phase correction operates efficiently and autonomously even in synchronization with rhythms exhibiting complex interval ratios.

[1]  J J Bharucha,et al.  Disrupting the isochrony underlying rhythm: An asymmetry in discrimination , 1986, Perception & psychophysics.

[2]  Bruno H. Repp,et al.  Temporal evolution of the phase correction response in synchronization of taps with perturbed two-interval rhythms , 2010, Experimental Brain Research.

[3]  I. Shmulevich,et al.  Measures of Temporal Pattern Complexity , 2000 .

[4]  Alan M Wing,et al.  Timing and trajectory in rhythm production. , 2007, Journal of experimental psychology. Human perception and performance.

[5]  Steven Brown,et al.  Contagious heterophony: A new theory about the origins of music , 2007 .

[6]  Justin London,et al.  音楽のリズム に関する最近の神経科学的研究について : 『Hearing in Time』第二版、 第三章「神経生物学とリズムの発達」より抜粋 , 2012 .

[7]  Mitsuo Kawato,et al.  Two coupled oscillators as a model for the coordinated finger tapping by both hands , 1980, Biological Cybernetics.

[8]  B. Repp Sensorimotor synchronization: A review of the tapping literature , 2005, Psychonomic bulletin & review.

[9]  R B Ivry,et al.  The coupled oscillator model of between-hand coordination in alternate-hand tapping: a reappraisal. , 2001, Journal of experimental psychology. Human perception and performance.

[10]  B. Repp Short Article: Segregated in Perception, Integrated for Action: Immunity of Rhythmic Sensorimotor Coordination to Auditory Stream Segregation , 2009, Quarterly journal of experimental psychology.

[11]  Bruno H Repp,et al.  Sensorimotor synchronization and perception of timing: effects of music training and task experience. , 2010, Human movement science.

[12]  J. Mates,et al.  Temporal Integration in Sensorimotor Synchronization , 1994, Journal of Cognitive Neuroscience.

[13]  A. Parducci Chapter 5 – CONTEXTUAL EFFECTS: A RANGE–FREQUENCY ANALYSIS* , 1974 .

[14]  H. Haken,et al.  A theoretical model of phase transitions in human hand movements , 2004, Biological Cybernetics.

[15]  C. Wright,et al.  Temporal rescaling of simple and complex ratios in rhythmic tapping. , 1995 .

[16]  Bruno H Repp,et al.  Perfect Phase Correction in Synchronization With Slow Auditory Sequences , 2008, Journal of motor behavior.

[17]  Mari Riess Jones,et al.  Sensitivity to event timing in regular and irregular sequences: Influences of musical skill , 1994, Perception & psychophysics.

[18]  Alan M. Wing,et al.  Modeling variability and dependence in timing , 1996 .

[19]  Grosvenor W. Cooper,et al.  The Rhythmic Structure of Music , 1971 .

[20]  G. Aschersleben,et al.  The theory of event coding (TEC): A framework of perception and action , 2001 .

[21]  Simon R. Hawkins,et al.  Imitation and production of interval ratios , 1986, Perception & psychophysics.

[22]  Morten H. Christiansen,et al.  Synchronization and Continuation Tapping to Complex Meters , 2006 .

[23]  Peter E. Keller,et al.  PRODUCTION AND SYNCHRONIZATION OF UNEVEN RHYTHMS AT FAST TEMPI , 2005 .

[24]  A. Gabrielsson,et al.  Performance of musical rhythm in 3/4 and 6/8 meter , 1983 .

[25]  B H Repp,et al.  Variations on a theme by chopin: relations between perception and production of timing in music. , 1998, Journal of experimental psychology. Human perception and performance.

[26]  B. Burns,et al.  Perceptual and motor factors in the imitation of simple temporal patterns , 1989, Psychological research.

[27]  M. P. Friedman,et al.  HANDBOOK OF PERCEPTION , 1977 .

[28]  Peter Desain,et al.  The Bayesian Way to Relate Rhythm Perception and Production , 2006 .

[29]  Jeff Pressing,et al.  Cognitive complexity and the structure of musical patterns , 1999 .

[30]  B. Repp,et al.  Phase Correction in Sensorimotor Synchronization with Nonisochronous Sequences , 2008 .

[31]  R. Schubotz Prediction of external events with our motor system: towards a new framework , 2007, Trends in Cognitive Sciences.

[32]  J. Kelso,et al.  Environmentally-specified patterns of movement coordination in normal and split-brain subjects , 2004, Experimental Brain Research.

[33]  J. Devin McAuley,et al.  Time judgments in global temporal contexts , 2005, Perception & psychophysics.

[34]  Desai,et al.  Proceedings of the 2008 C 3 S 2 E conference , 2008 .

[35]  Edward W. Large,et al.  Tracking simple and complex sequences , 2002, Psychological research.

[36]  B. Repp Obligatory “expectations” of expressive timing induced by perception of musical structure , 1998, Psychological research.

[37]  Dharmesh Patel Rhythm , 1919, The Craft of Poetry.

[38]  Godfried T. Toussaint,et al.  On the relation between rhythm complexity measures and human rhythmic performance , 2008, C3S2E '08.

[39]  Bruno H Repp,et al.  Multiple temporal references in sensorimotor synchronization with metrical auditory sequences , 2007, Psychological research.

[40]  D J Povel,et al.  Internal representation of simple temporal patterns. , 1981, Journal of experimental psychology. Human perception and performance.

[41]  B. Repp Does an auditory perceptual illusion affect on-line auditory action control? The case of (de)accentuation and synchronization , 2005, Experimental Brain Research.

[42]  J. Gibbon Scalar expectancy theory and Weber's law in animal timing. , 1977 .

[43]  B H Repp,et al.  Phase correction, phase resetting, and phase shifts after subliminal timing perturbations in sensorimotor synchronization. , 2001, Journal of experimental psychology. Human perception and performance.

[44]  G. Aschersleben,et al.  The Theory of Event Coding (TEC): a framework for perception and action planning. , 2001, The Behavioral and brain sciences.

[45]  Bruno H Repp,et al.  Automaticity and voluntary control of phase correction following event onset shifts in sensorimotor synchronization. , 2002, Journal of experimental psychology. Human perception and performance.

[46]  D. Deutsch,et al.  The Psychology of Music , 1983 .

[47]  Henkjan Honing,et al.  Swing once more: Relating timing and tempo in expert jazz drumming , 2008 .

[48]  S. Trehub,et al.  Tuning in to musical rhythms: infants learn more readily than adults. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[49]  Bruno H Repp,et al.  Rate Limits in Sensorimotor Synchronization With Auditory and Visual Sequences: The Synchronization Threshold and the Benefits and Costs of Interval Subdivision , 2003, Journal of motor behavior.

[50]  B H Repp,et al.  Compensation for subliminal timing perturbations in perceptual-motor synchronization , 2000, Psychological research.

[51]  Saul Sternberg,et al.  TilDing by Skilled Musicians , 1982 .

[52]  D. Vorberg,et al.  Timing of Two‐Handed Rhythmic Performance a , 1984, Annals of the New York Academy of Sciences.

[53]  Anders Friberg,et al.  Swing Ratios and Ensemble Timing in Jazz Performance: Evidence for a Common Rhythmic Pattern , 2002 .

[54]  D Hary,et al.  Temporal tracking and synchronization strategies. , 1985, Human neurobiology.

[55]  B. Repp,et al.  A detuned simple-ratio attractor in production of cyclic two-interval rhythms , 2010 .

[56]  J. Levinson,et al.  Music in the Moment , 1997 .

[57]  E. Glenn Schellenberg,et al.  Asymmetries in the Discrimination of Musical Intervals: Going Out-of-Tune Is More Noticeable Than Going In-Tune , 2001 .

[58]  D. Hary,et al.  Synchronizing human movement with an external clock source , 1987, Biological Cybernetics.

[59]  M. Peters The relationship between variability of intertap intervals and interval duration , 1989 .

[60]  C. Drake,et al.  The “Ticktock” of Our Internal Clock , 2003, Psychological science.

[61]  Bruno H. Repp,et al.  Rate limits of sensorimotor synchronization , 2006 .

[62]  J. Requin Attention and Performance VII , 1980 .

[63]  B. Merker,et al.  On the role and origin of isochrony in human rhythmic entrainment , 2009, Cortex.

[64]  M. Tomasello,et al.  Joint drumming: social context facilitates synchronization in preschool children. , 2009, Journal of experimental child psychology.