The angular momentum production during the takeoff phase in diving was computed in two ways: The first approach used the Hanavan model based on 15 landmarks. The second one was an image-based individual model. The remote angular momenta of the body segments were computed and compared. It turned out that both methods yield almost the same angular momenta of the total body. Depending on the body mass the arm segments amount to 52 ± 6 % to the total angular momentum for the individual model and 57 ± 9 % for the Hanavan model. The leg contribution was 33 ± 6 % and 33 ± 7 %, the head contribution was 19.1 ± 4 % and 14.2 ± 4 % for the individual model resp. for the Hanavan model
The purpose of this study is to investigate the relationship between the kinematics and the dynamics...
At the 1991 World Student Games, eight reverse 1½ somersault dives with 2½ twists were recorded duri...
INTRODUCTION: Vertical velocity of the center of mass (COM) and body orientation described by joint ...
The purpose of this study was to simulate the flight phase of a back 3½ somersault tuck (207 C) for ...
Performance in the flight phase of springboard diving is limited by the amounts of linear and angula...
The aim of this study was to optimise springboard diving takeoff technique for maximum forward rotat...
Dive start performance has been considered a major determinant for race swimming over short distance...
This paper presents a model which describes the vertical, horizontal and rotational movement of a di...
A method is presented for determining the angular momentum of the human body about its mass centre f...
The aim of this study was to investigate the effects of imposing anatomical constraints and robustne...
Maximum-height jumping and jumping for maximizing backward somersault rotations are simulated. The s...
The mechanics of platform diving, unlike those of springboard diving. have not been investigated to ...
A computer simulation model of a springboard and a diver was developed to investigate diving takeoff...
Forward and reverse springboard somersaulting dives use similar approaches with a hurdle step prior ...
Introduction: During the push-off motion in ski jumping, the athlete strives to generate both a high...
The purpose of this study is to investigate the relationship between the kinematics and the dynamics...
At the 1991 World Student Games, eight reverse 1½ somersault dives with 2½ twists were recorded duri...
INTRODUCTION: Vertical velocity of the center of mass (COM) and body orientation described by joint ...
The purpose of this study was to simulate the flight phase of a back 3½ somersault tuck (207 C) for ...
Performance in the flight phase of springboard diving is limited by the amounts of linear and angula...
The aim of this study was to optimise springboard diving takeoff technique for maximum forward rotat...
Dive start performance has been considered a major determinant for race swimming over short distance...
This paper presents a model which describes the vertical, horizontal and rotational movement of a di...
A method is presented for determining the angular momentum of the human body about its mass centre f...
The aim of this study was to investigate the effects of imposing anatomical constraints and robustne...
Maximum-height jumping and jumping for maximizing backward somersault rotations are simulated. The s...
The mechanics of platform diving, unlike those of springboard diving. have not been investigated to ...
A computer simulation model of a springboard and a diver was developed to investigate diving takeoff...
Forward and reverse springboard somersaulting dives use similar approaches with a hurdle step prior ...
Introduction: During the push-off motion in ski jumping, the athlete strives to generate both a high...
The purpose of this study is to investigate the relationship between the kinematics and the dynamics...
At the 1991 World Student Games, eight reverse 1½ somersault dives with 2½ twists were recorded duri...
INTRODUCTION: Vertical velocity of the center of mass (COM) and body orientation described by joint ...