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Gait Variability and Complexity during Single and Dual-Task Walking on Different Surfaces in Outdoor Environment

Denisa Nohelová, Lucia Bizovská, Nicolas Vuillerme, Zdeněk Svoboda

2021Sensors45 citationsDOIOpen Access PDF

Abstract

Nowadays, gait assessment in the real life environment is gaining more attention. Therefore, it is desirable to know how some factors, such as surfaces (natural, artificial) or dual-tasking, influence real life gait pattern. The aim of this study was to assess gait variability and gait complexity during single and dual-task walking on different surfaces in an outdoor environment. Twenty-nine healthy young adults aged 23.31 ± 2.26 years (18 females, 11 males) walked at their preferred walking speed on three different surfaces (asphalt, cobbles, grass) in single-task and in two dual-task conditions (manual task-carrying a cup filled with water, cognitive task-subtracting the number 7). A triaxial inertial sensor attached to the lower trunk was used to record trunk acceleration during gait. From 15 strides, sample entropy (SampEn) as an indicator of gait complexity and root mean square (RMS) as an indicator of gait variability were computed. The findings demonstrate that in an outdoor environment, the surfaces significantly impacted only gait variability, not complexity, and that the tasks affected both gait variability and complexity in young healthy adults.

Topics & Concepts

GaitSample entropyTrunkTask (project management)Physical medicine and rehabilitationGait analysisComputer scienceSimulationArtificial intelligenceEngineeringMedicineEcologyPattern recognition (psychology)BiologySystems engineeringBalance, Gait, and Falls PreventionGait Recognition and AnalysisCerebral Palsy and Movement Disorders
Gait Variability and Complexity during Single and Dual-Task Walking on Different Surfaces in Outdoor Environment | Litcius