Accurate estimation of resultant joint forces and moments from gait analysis data depends heavily on the accuracy of measurement of the ground reaction force (GRF). Typically, multicomponent force platforms are used to measure the components of the GRF and the position of the centre of pressure. A new rig, designed to allow safe and quick static testing of the vertical component and centre of pressure outputs of such force platforms, is described. This rig has been used to test the accuracy of AMTI force platforms and was found to reduce dramatically the testing time. The results of the tests are also given
Force plates for human movement analysis provide accurate measurements when mounted rigidly on an in...
This study describes a novel calibration method for six-degrees-of-freedom force/torque sensors (FTs...
Kinetic analysis of walking requires joint kinematics and ground reaction force (GRF) measurement, w...
Accurate estimation of resultant joint forces and moments from gait analysis data depends heavily on...
A system for the in-situ re-calibration of six-component force platforms is presented. The system co...
Nowadays force platforms are widely employed both for diagnostic purposes and for monitoring the exe...
In this work a transportable calibration system for dynamic performance testing of medical force pla...
In gait lab, the quantification of the ground reaction forces (GRFs) acting upon individual limbs is...
Main topics: Analysis of gait and motor disorders; Technical developments in movement science Intro...
The measurement of ground reaction forces is important in the biomechanical analysis of gait and oth...
<div><p>AbstractIntroduction: The maintenance of balance and body orientation during standing is ess...
Ground reaction forces (GRFs) are often used in inverse dynamics analyses to determine joint loading...
The measurement of ground reaction forces is important in the biomechanical analysis of gait and oth...
Using multiple cameras with force platforms is a classical and popular method for gait analysis. How...
This study describes a novel calibration method for six-degrees-of-freedom force/torque sensors (FTs...
Force plates for human movement analysis provide accurate measurements when mounted rigidly on an in...
This study describes a novel calibration method for six-degrees-of-freedom force/torque sensors (FTs...
Kinetic analysis of walking requires joint kinematics and ground reaction force (GRF) measurement, w...
Accurate estimation of resultant joint forces and moments from gait analysis data depends heavily on...
A system for the in-situ re-calibration of six-component force platforms is presented. The system co...
Nowadays force platforms are widely employed both for diagnostic purposes and for monitoring the exe...
In this work a transportable calibration system for dynamic performance testing of medical force pla...
In gait lab, the quantification of the ground reaction forces (GRFs) acting upon individual limbs is...
Main topics: Analysis of gait and motor disorders; Technical developments in movement science Intro...
The measurement of ground reaction forces is important in the biomechanical analysis of gait and oth...
<div><p>AbstractIntroduction: The maintenance of balance and body orientation during standing is ess...
Ground reaction forces (GRFs) are often used in inverse dynamics analyses to determine joint loading...
The measurement of ground reaction forces is important in the biomechanical analysis of gait and oth...
Using multiple cameras with force platforms is a classical and popular method for gait analysis. How...
This study describes a novel calibration method for six-degrees-of-freedom force/torque sensors (FTs...
Force plates for human movement analysis provide accurate measurements when mounted rigidly on an in...
This study describes a novel calibration method for six-degrees-of-freedom force/torque sensors (FTs...
Kinetic analysis of walking requires joint kinematics and ground reaction force (GRF) measurement, w...