We present the use of a single inertial measurement unit (IMU) worn on the thigh to produce stride-by-stride estimates of walking speed and its spatiotemporal determinants (i.e., stride time and stride length). Ten healthy and eight post-stroke individuals completed a 6-min walk test with an 18-camera motion capture system used for ground truth measurements. Subject-specific estimation models were trained to estimate walking speed using the polar radius extracted from phase portraits produced from the IMU-measured thigh angular position and velocity. Consecutive flexion peaks in the thigh angular position data were used to define each stride and compute stride times. Stride-by-stride estimates of walking speed and stride time were then used...
Spatiotemporal parameters of walking are used to identify gait impairments and provide a tailored th...
As low cost and highly portable sensors, inertial measurements units (IMU) have become increasingly ...
Current developments in inertial sensor technology could enable the measurement of running gait outs...
Improving independent mobility in post-stroke patients is one of the main goals of most rehabilitati...
Walking is a central activity of daily life, and there is an increasing demand for objective measure...
A novel approach for estimating the instantaneous velocity of the pelvis during walking was develope...
A novel approach for estimating the instantaneous velocity of the pelvis during walking was develope...
Abstract: Walking speed (WS) is recognized as an important dimension of functional health and a can...
Walking/gait speed is a key measure for daily mobility characterization. To date, various studies ha...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...
International audienceAs low cost and highly portable sensors, inertial measurements units (IMU) hav...
Walking speed is widely used to study human health status. Wearable inertial measurement units (IMU)...
In the last decade, various methods for the estimation of gait events and temporal parameters from t...
We have reviewed and assessed the reliability of a dead reckoning and drift correction algorithm for...
Spatiotemporal gait parameters such as step time and walking speed can be used to quantify gait perf...
Spatiotemporal parameters of walking are used to identify gait impairments and provide a tailored th...
As low cost and highly portable sensors, inertial measurements units (IMU) have become increasingly ...
Current developments in inertial sensor technology could enable the measurement of running gait outs...
Improving independent mobility in post-stroke patients is one of the main goals of most rehabilitati...
Walking is a central activity of daily life, and there is an increasing demand for objective measure...
A novel approach for estimating the instantaneous velocity of the pelvis during walking was develope...
A novel approach for estimating the instantaneous velocity of the pelvis during walking was develope...
Abstract: Walking speed (WS) is recognized as an important dimension of functional health and a can...
Walking/gait speed is a key measure for daily mobility characterization. To date, various studies ha...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...
International audienceAs low cost and highly portable sensors, inertial measurements units (IMU) hav...
Walking speed is widely used to study human health status. Wearable inertial measurement units (IMU)...
In the last decade, various methods for the estimation of gait events and temporal parameters from t...
We have reviewed and assessed the reliability of a dead reckoning and drift correction algorithm for...
Spatiotemporal gait parameters such as step time and walking speed can be used to quantify gait perf...
Spatiotemporal parameters of walking are used to identify gait impairments and provide a tailored th...
As low cost and highly portable sensors, inertial measurements units (IMU) have become increasingly ...
Current developments in inertial sensor technology could enable the measurement of running gait outs...