A method is presented for determining the angular momentum of the human body about its mass centre for general three–dimensional movements. The body is modelled as an 11 segment link system with 17 rotational degrees of freedom and the angular momentum of the body is derived as a sum of 12 terms, each of which is a vector function of just one angular velocity. This partitioning of the angular momentum vector gives the contribution due to the relative segmental movement at each joint rather than the usual contribution of each segment. A method of normalizing the angular momentum is introduced to enable the comparison of rotational movements which have different flight times and are performed by athletes with differing inertia parameters. Ang...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
The purposes of this research were a) to identify differences in the biomechanical description of mo...
The simulation of aerial movement—III. The determination of the angular momentum of the human body T...
A computer simulation model of human airborne movement is described. The body is modelled as 11 rigi...
A mathematical inertia model which permits the determination of personalized segmental inertia param...
INTRODUCTION -In analyses of athletic technique in figure skating primarily jumps with tripie or fou...
Quantitative mechanical analyses of human movement require the time histories of the angles which sp...
In sports like gymnastics, trampolining and diving, attention is focussed on control and good execut...
A simulation model and a rigid body model are used to evaluate aerial twisting techniques. It is fou...
A method is presented for determining the contributions made by contact and aerial twisting techniqu...
The angular momentum production during the takeoff phase in diving was computed in two ways: The fi...
The contribution of release state, change in inertia moment, and angular momentum transfer to the p...
In the takeoff and early flight phase of a twisting somersault, joint coordination is based on feed-...
Eleven methods of estimating the inertial properties of an athlete based on anthropometric measureme...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
The purposes of this research were a) to identify differences in the biomechanical description of mo...
The simulation of aerial movement—III. The determination of the angular momentum of the human body T...
A computer simulation model of human airborne movement is described. The body is modelled as 11 rigi...
A mathematical inertia model which permits the determination of personalized segmental inertia param...
INTRODUCTION -In analyses of athletic technique in figure skating primarily jumps with tripie or fou...
Quantitative mechanical analyses of human movement require the time histories of the angles which sp...
In sports like gymnastics, trampolining and diving, attention is focussed on control and good execut...
A simulation model and a rigid body model are used to evaluate aerial twisting techniques. It is fou...
A method is presented for determining the contributions made by contact and aerial twisting techniqu...
The angular momentum production during the takeoff phase in diving was computed in two ways: The fi...
The contribution of release state, change in inertia moment, and angular momentum transfer to the p...
In the takeoff and early flight phase of a twisting somersault, joint coordination is based on feed-...
Eleven methods of estimating the inertial properties of an athlete based on anthropometric measureme...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
The purposes of this research were a) to identify differences in the biomechanical description of mo...