This paper suggests a simple method to determine the global coordinates of the angular velocity and the angular acceleration of a body segment determined by the coordinates of minimum three markers. There are commonly used calculations for the angular quantities basing on the “hypothesis” of planar motion. The usage of approximate methods can result in quantitative and qualitative errors that may completely disort the reality. The method mentioned here is theoretically absolutely correct and can be well used for smoothing noisy data
This work presents two schemes of measuring the linear and angular kinematics of a rigid body using ...
Physiologically and biomechanically, the human body represents a complicated system with an abundanc...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...
A method is presented for determining the angular momentum of the human body about its mass centre f...
The objective of the work is to compare and improve the accuracy of existing methods for the computa...
Small inertial sensors like accelerometers and gyroscopes are more and more used in ambulatory motio...
In measurement of rigid body inertia by the falling body method, we obtain the angular acceleration ...
INTRODUCTION: Recently, Colloud et al. showed the feasibility of using a moving motion analysis syst...
Two motions of motion quality have been developed for planar motion. They are the best motion measu...
Problems concerning determination of angular velocity and accelerations of a human being are conside...
Assessments of body-segment angular movements are very important in the rehabilitation process. Head...
In the literature on robotics and multibody dynamics, the concept of average angular velocity has re...
A theoretical method for extracting the rotational degrees of freedom from a reconstructed three-dim...
ABSTRACT. Klein P J, DeHaven JJ. Accuracy of three-dimensional linear and angular estimates obtained...
The general three-din~nsional (3-D) motion of a rigid body (R.B.), described by its six degrees of f...
This work presents two schemes of measuring the linear and angular kinematics of a rigid body using ...
Physiologically and biomechanically, the human body represents a complicated system with an abundanc...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...
A method is presented for determining the angular momentum of the human body about its mass centre f...
The objective of the work is to compare and improve the accuracy of existing methods for the computa...
Small inertial sensors like accelerometers and gyroscopes are more and more used in ambulatory motio...
In measurement of rigid body inertia by the falling body method, we obtain the angular acceleration ...
INTRODUCTION: Recently, Colloud et al. showed the feasibility of using a moving motion analysis syst...
Two motions of motion quality have been developed for planar motion. They are the best motion measu...
Problems concerning determination of angular velocity and accelerations of a human being are conside...
Assessments of body-segment angular movements are very important in the rehabilitation process. Head...
In the literature on robotics and multibody dynamics, the concept of average angular velocity has re...
A theoretical method for extracting the rotational degrees of freedom from a reconstructed three-dim...
ABSTRACT. Klein P J, DeHaven JJ. Accuracy of three-dimensional linear and angular estimates obtained...
The general three-din~nsional (3-D) motion of a rigid body (R.B.), described by its six degrees of f...
This work presents two schemes of measuring the linear and angular kinematics of a rigid body using ...
Physiologically and biomechanically, the human body represents a complicated system with an abundanc...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...