Causal interactions and dynamic stability between limbs while walking with imposed leg constraints
Genevieve K. R. Williams, Domenico Vicinanza, Michael Attias, Stéphane Armand

TL;DR
The study explores how walking changes when leg movements are constrained, revealing how limb interactions affect gait stability and complexity.
Contribution
A new Complexity-Instability Index and causal analysis of leg motion dynamics under imposed constraints are introduced.
Findings
Normal walking shows high mutual drive between legs with low complexity and high stability.
Bilateral constraints reduce leg interactions and increase motion complexity.
Unilateral constraints cause the constrained leg to strongly influence the unconstrained one, increasing complexity.
Abstract
To investigate the dynamics of the motor control system during walking by examining the complexity, stability, and causal relationships of leg motions. Specifically, the study focuses on gait under both bilateral and unilateral constraints induced by a passive exoskeleton designed to replicate gastrocnemius contractures. Kinematic data was collected as 10 healthy participants walked at a self-selected speed. A new Complexity-Instability Index (CII) of the leg motions was defined as a function of the Correlation Dimension and the Largest Lyapunov Exponent. Causal interactions between the leg motions are explored using Convergent Cross Mapping. Normal walking is characterized by a high mutual drive of each leg to the other, where CII is lowest for both legs (complexity of each leg motion is low and stability high). The effect of the bilateral emulated contractures is a reduced drive of…
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Taxonomy
TopicsBalance, Gait, and Falls Prevention · Motor Control and Adaptation · Muscle activation and electromyography studies
