Dynamics of 1:2 Coordination: Generalizing Relative Phase to n:m Rhythms.

Publisher: Routledge Country of Publication: United States NLM ID: 0236512 Publication Model: Print Cited Medium: Internet ISSN: 1940-1027 (Electronic) Linking ISSN: 00222895 NLM ISO Abbreviation: J Mot Behav

Publication: 2010- : New York : Routledge
Original Publication: College Park, Md., Journal Pub. Affiliates.

Interlimb rhythmic movements can be modeled as coupled oscillators, with stable performance characterized by the relative phase between the limbs. In the present study, that modeling strategy, verified previously for 1:1 coordination, was generalized to 1:2 coordination with a view to n:m coordination. The generalized model predicted interactions between coordination (specifically, 1:1 vs. 1:2) and the frequency asymmetry between the limbs determining mean relative phase and its variability. The predicted interactions were evaluated with bimanual 1:2 and 1:1 rhythmic tasks in which participants (N = 8) oscillated hand-held pendulums whose uncoupled frequencies could be adjusted so that different interlimb asymmetries were produced. The authors needed new analytic procedures to verify stable 1:2 coordination and to resolve stochastic and deterministic sources of variability in the component oscillations. The major expectations from the generalized model were confirmed, and the implications of additional but unpredicted findings for the modeling of multifrequency behavior are discussed.

Date Created: 20010215 Latest Revision: 20191120

20221213

10.1080/00222899909600989

11177632