A Developmental Study of the Interlimb Coordination in Running and Galloping

Abstract

Using a dynamical systems perspective on motor behavior, it was predicted that interlimb coordination of running and galloping would behave like coupled, nonlinear, limit-cycle oscillators, which show the properties of phase locking, entrainment, and structural stability. Female subjects ranging in age from 2.5 years to adult were filmed while running and galloping with and without a weight perturbation. Analysis of both temporal- and amplitude-phasing measures revealed that both gaits demonstrated oscillatory properties. Differences between gaits and across age were primarily a matter of degree. In general, children 4 years of age and below had slightly less stable phasing patterns, and all age groups showed slightly less stability in the gallop, particularly with amplitude phasing.