Litcius/Paper detail

Filtering Biomechanical Signals in Movement Analysis

Francesco Crenna, Giovanni Battista Rossi, Marta Berardengo

2021Sensors114 citationsDOIOpen Access PDF

Abstract

Biomechanical analysis of human movement is based on dynamic measurements of reference points on the subject's body and orientation measurements of body segments. Collected data include positions' measurement, in a three-dimensional space. Signal enhancement by proper filtering is often recommended. Velocity and acceleration signal must be obtained from position/angular measurement records, needing numerical processing effort. In this paper, we propose a comparative filtering method study procedure, based on measurement uncertainty related parameters' set, based upon simulated and experimental signals. The final aim is to propose guidelines to optimize dynamic biomechanical measurement, considering the measurement uncertainty contribution due to the processing method. Performance of the considered methods are examined and compared with an analytical signal, considering both stationary and transient conditions. Finally, four experimental test cases are evaluated at best filtering conditions for measurement uncertainty contributions.

Topics & Concepts

SIGNAL (programming language)AccelerationComputer scienceSignal processingOrientation (vector space)Position (finance)Measurement uncertaintyTransient (computer programming)System of measurementSet (abstract data type)SimulationComputer visionMathematicsDigital signal processingStatisticsPhysicsGeometryComputer hardwareAstronomyClassical mechanicsEconomicsOperating systemFinanceProgramming languageMuscle activation and electromyography studiesSports Performance and TrainingBalance, Gait, and Falls Prevention