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Thinking rhythm objects.

Rolf Inge Godøy1,2

  • 1Department of Musicology, University of Oslo, Oslo, Norway.

Frontiers in Psychology
|August 1, 2022
PubMed
Summary
This summary is machine-generated.

This review explores rhythm objects, defined as brief, coherent sound-and-motion musical units. It highlights the need for more research into their generation and perception, drawing on concepts like coarticulation and intermittent motor control.

Keywords:
coherenceconstraintsintermittencymusicobjectsrhythm

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Area of Science:

  • Music Cognition
  • Neuroscience
  • Auditory Perception

Background:

  • Research extensively covers rhythm in continuous musical sound, focusing on periodicity, synchrony, and entrainment.
  • Less attention has been given to the generation and perception of discrete, coherent rhythm objects.
  • Rhythm objects are defined as brief (few seconds) chunks of combined sound and body motion in music.

Purpose of the Study:

  • To enhance understanding of rhythm objects.
  • To explore literature on elements that enhance rhythm object coherence.
  • To bridge the gap between continuous rhythm research and discrete rhythm object perception.

Main Methods:

  • Mini-review of existing literature.
  • Identification of key concepts related to rhythm object coherence.
  • Synthesis of findings from related research areas.

Main Results:

  • Coherence-enhancing elements like coarticulation (fusion of motion events) are crucial for extended rhythm objects.
  • Intermittent motor control (discontinuous, instant-by-instant control) plays a role in triggering rhythm objects.
  • Rhythm objects represent a distinct area of study within music cognition and neuroscience.

Conclusions:

  • Further research is needed on the generation and perception of singular rhythm objects.
  • Concepts such as coarticulation and intermittent motor control offer valuable frameworks for studying rhythm objects.
  • Understanding rhythm objects can advance our knowledge of music perception, motor control, and cognitive processing.