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Noncontact Extraction of Biomechanical Parameters in Gait Analysis Using a Multi-Input and Multi-Output Radar Sensor

Dingyang Wang, Jun-Young Park, Han Jo Kim, Kounseok Lee, Sung Ho Cho

2021IEEE Access32 citationsDOIOpen Access PDF

Abstract

Gait analysis is one of the most basic methods for assessing a patient’s biopsychological status. Doctors can distinguish among people with mental and neurological disorders by monitoring their gait. To perform gait analysis in a more quantitative and accurate way, many studies have used inertial measurement units (IMUs), cameras and ground reaction force platforms. However, conventional gait analysis requires sensors to be attached to the subject’s body, and some of them are too expensive to afford. Currently, studies of noncontact gait analysis using radar sensors are being researched. Such studies have successfully measured several gait parameters of the noncontact method but have been unable to distinguish between individual legs. In this study, we proposed a method for noncontact gait analysis on a treadmill that could separate the left and right legs using multi-input and multi-output frequency-modulated continuous-wave (MIMO FMCW) radar. By recognizing two legs in a range-Doppler map and estimating their angles, ranges and velocities, the gait parameters of the individual legs could be identified. We performed experiments with 15 participants in 4 scenarios (walking, running, left leg limping, right leg limping) and compared gait parameters obtained using FMCW radar and IMUs. The gait parameter measurements were validated using the intraclass correlation value, and they showed excellent agreement except for flight time. Moreover, a parameter is suggested that can detect gait asymmetry accurately, and its sensitivity (0.83) and specificity (1.00) were validated. Our future research will analyze not only feet movement but also arm movement so that it can be further applied to the medical field.

Topics & Concepts

Computer scienceRadarGait analysisExtraction (chemistry)GaitRadar trackerComputer visionPhysical medicine and rehabilitationTelecommunicationsMedicineChromatographyChemistryGait Recognition and AnalysisAdvanced SAR Imaging TechniquesStructural Health Monitoring Techniques
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