Add to ORKGThe purposes of this study were to propose a method for simply and accurately detecting the foot contact and toe-off events during treadmill running over a wide range of speeds and to examine the validity and accuracy of the method. Three patterns of foot-strike were distinguished from the foot kinematic data. The thresholds for foot contact and toe-off were determined inductively based on the minimum height of the heel or metatarsal for each foot-strike pattern with regard to running speed. The estimate for foot contact and toe off indicates that this method can apply over a wide range of speeds with high accuracy
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
This paper presents a comparison of four different methods of identifying the times of foot-strike a...
Contact time (t <sub>c</sub> ) relies upon the accuracy of foot-strike and toe-off event...
This study examines a simple method to accurately detect heel strike (HS) and toe off (TO) timing ov...
The accurate detection of foot-strike and toe-off is often critical in the assessment of running bio...
The accurate detection of foot-strike and toe-off is often critical in the assessment of running bio...
The accurate detection of foot-strike and toe-off is often critical in the assessment of running bio...
The purpose of this study was to evaluate the performance of new algorithms based on foot-worn inert...
In running assessments, biomechanics of the stance phase are often measured to understand external l...
In running assessments, biomechanics of the stance phase are often measured to understand external l...
In running assessments, biomechanics of the stance phase are often measured to understand external l...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
This paper presents a comparison of four different methods of identifying the times of foot-strike a...
Contact time (t <sub>c</sub> ) relies upon the accuracy of foot-strike and toe-off event...
This study examines a simple method to accurately detect heel strike (HS) and toe off (TO) timing ov...
The accurate detection of foot-strike and toe-off is often critical in the assessment of running bio...
The accurate detection of foot-strike and toe-off is often critical in the assessment of running bio...
The accurate detection of foot-strike and toe-off is often critical in the assessment of running bio...
The purpose of this study was to evaluate the performance of new algorithms based on foot-worn inert...
In running assessments, biomechanics of the stance phase are often measured to understand external l...
In running assessments, biomechanics of the stance phase are often measured to understand external l...
In running assessments, biomechanics of the stance phase are often measured to understand external l...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
The gait cycle is frequently divided into two distinct phases, stance and swing, which can be accura...
This paper presents a comparison of four different methods of identifying the times of foot-strike a...