The variously motivated requests of biomechanics regarding the simulation and analysis of the human movement and the associated better understanding of mechanisms of the human neuromuscular skeleton system has led to the development of realistic 3D-man models. Biomechanical multibody systems as models for moving biological systems (humans, animals) have to incorporate more difficult system components than technical systems. Among others, the flexibility of the individual body segments due to muscles, tendons, ligaments, organs and body fluids has significant influence. The objective of this work is the parameter identification of these so-called wobbling masses
The aim of this study was to gain a further insight into whole body mass proportion and coupling sti...
Gross body actions involved in heavy industry, e.g. lifting and carrying materials, are often the ca...
During impacts the soft tissues of the body move relative to the underlying skeleton and so the rigi...
The aim of this study was to determine the effects that soft tissue motion has on ground reaction fo...
INTRODUCTJON • Models for the simulation of sports activities with body impact draw many of their fe...
Despite research and community effort, injuries resulting from falls have significantly increased fo...
Soft tissue motion occurs as impulsive loads are applied to the skeletal system. It has been demonst...
In high impact human activities, much of the impact shock wave is dissipated through internal body s...
Females involved in sport are more susceptible to injury during landing than their male counterparts...
The most current models of dynamic locomotion involve the use of a simple or damped spring-mass syst...
The constructed 3D model of the lower part of human body for the simulation of high jump enables to ...
This paper introduces a novel human modeling system utilizing the ADAMS (Mechanical Dynamics Inc.) m...
Introduction: A standard method to determine loads on human joints during sports movements is invers...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
The aim of this study was to gain a further insight into whole body mass proportion and coupling sti...
Gross body actions involved in heavy industry, e.g. lifting and carrying materials, are often the ca...
During impacts the soft tissues of the body move relative to the underlying skeleton and so the rigi...
The aim of this study was to determine the effects that soft tissue motion has on ground reaction fo...
INTRODUCTJON • Models for the simulation of sports activities with body impact draw many of their fe...
Despite research and community effort, injuries resulting from falls have significantly increased fo...
Soft tissue motion occurs as impulsive loads are applied to the skeletal system. It has been demonst...
In high impact human activities, much of the impact shock wave is dissipated through internal body s...
Females involved in sport are more susceptible to injury during landing than their male counterparts...
The most current models of dynamic locomotion involve the use of a simple or damped spring-mass syst...
The constructed 3D model of the lower part of human body for the simulation of high jump enables to ...
This paper introduces a novel human modeling system utilizing the ADAMS (Mechanical Dynamics Inc.) m...
Introduction: A standard method to determine loads on human joints during sports movements is invers...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
The aim of this study was to gain a further insight into whole body mass proportion and coupling sti...
Gross body actions involved in heavy industry, e.g. lifting and carrying materials, are often the ca...
During impacts the soft tissues of the body move relative to the underlying skeleton and so the rigi...