A markerless technique is proposed and applied to estimate the two-dimensional joint kinematics of the shank and foot complex during the stance phase. Image sequences were acquired with a single camera from three healthy subjects while walking barefoot and with socks. Automatic segmentation of the shank and foot was performed to isolate the moving body from the background. A multi-rigid body model for the shank and foot complex, with the relevant segment anatomical axes, was defined and an image cross-correlation technique was applied to detect the anatomical axes locations throughout the movement. The proposed markerless technique was validated by acquiring the same trials also with a stereophotogrammetric marker-based system and a simple ...
A hybrid markerless technique is presented and applied to estimate the 2-D lower limb joint kinemati...
We present a 2D gait analysis system which is completely markerless and extracts kinematic informati...
International audienceThis paper presents a complete methodology for human gait analysis using a mar...
A markerless technique is proposed and applied to estimate the two-dimensional joint kinematics of t...
This study focuses on evaluating the 2D movement of the shank and foot complex during the stance pha...
Shank and foot complex is considered to be a fundamental mechanism of the lower limb in locomotion [...
A method for analyzing the 2-D movement of the shank and foot complex during stance is presented. A ...
This work presents a two-dimensional markerless clinical gait analysis protocol to estimate the sagi...
In this study, a 2-D hybrid markerless technique is proposed to estimate the lower limb joint kinema...
During the last decade markerless motion capture techniques have gained an increasing interest in th...
Multi-segmental foot kinematics have been analysed by means of optical marker-sets or by means of in...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
This study examined if occluded joint locations, obtained from 2D markerless motion capture (single ...
Gait analysis using optical tracking equipment has been demonstrated to be a clinically useful tool ...
A hybrid markerless technique is presented and applied to estimate the 2-D lower limb joint kinemati...
We present a 2D gait analysis system which is completely markerless and extracts kinematic informati...
International audienceThis paper presents a complete methodology for human gait analysis using a mar...
A markerless technique is proposed and applied to estimate the two-dimensional joint kinematics of t...
This study focuses on evaluating the 2D movement of the shank and foot complex during the stance pha...
Shank and foot complex is considered to be a fundamental mechanism of the lower limb in locomotion [...
A method for analyzing the 2-D movement of the shank and foot complex during stance is presented. A ...
This work presents a two-dimensional markerless clinical gait analysis protocol to estimate the sagi...
In this study, a 2-D hybrid markerless technique is proposed to estimate the lower limb joint kinema...
During the last decade markerless motion capture techniques have gained an increasing interest in th...
Multi-segmental foot kinematics have been analysed by means of optical marker-sets or by means of in...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
This study examined if occluded joint locations, obtained from 2D markerless motion capture (single ...
Gait analysis using optical tracking equipment has been demonstrated to be a clinically useful tool ...
A hybrid markerless technique is presented and applied to estimate the 2-D lower limb joint kinemati...
We present a 2D gait analysis system which is completely markerless and extracts kinematic informati...
International audienceThis paper presents a complete methodology for human gait analysis using a mar...