AbstractThe paper presents the multi-body system method (MBS) as a proper tool for assessing the magnitude of reaction forces and torques in human upper limb joints. Forward dynamics is used and the reaction forces are determined in different simulating conditions. The steps to be followed in MBS modeling are presented together with the principles of modeling the bones, the muscles and the joints of the human upper limb. The simulation model provides results for the reaction forces and torques in the elbow joint during the flexion of the forearm
AbstractThe same as with dynamic models, all analytical biomechanical models can be analyzed directl...
INTRODUCTJON • Models for the simulation of sports activities with body impact draw many of their fe...
This paper describes a musculoskeletal model that represents human elbow flexion-extension and forea...
AbstractThe paper presents the multi-body system method (MBS) as a proper tool for assessing the mag...
This chapter aims to describe step by step the development of a novel explicit biomechanical multibo...
A recent application of computer simulation is its use for the human body, which resembles a mechani...
In this research elbow flexion has been analysed and the moment of muscles and the reaction force ex...
This paper describes the development and evaluation of a musculoskeletal model that represents human...
Knowledge of dynamic forces acting on the upper limb is useful, and sometimes even necessary, in it...
Musculoskeletal dynamics is a branch of biomechanics that takes advantage of interdisciplinary mode...
In this paper a multibody model of the upper limb is presented. The limb is modelled as a three dim...
This dissertation describes the development and evaluation of a musculoskeletal model of the elbow j...
The aim of this paper is to present an explicit analytical biomechanical multibody procedure able to...
The purpose of the current research was to calculate the joint torques and joint reaction forces of ...
Musculoskeletal modelling is widely used in sports biomechanics for the estimation of joint and musc...
AbstractThe same as with dynamic models, all analytical biomechanical models can be analyzed directl...
INTRODUCTJON • Models for the simulation of sports activities with body impact draw many of their fe...
This paper describes a musculoskeletal model that represents human elbow flexion-extension and forea...
AbstractThe paper presents the multi-body system method (MBS) as a proper tool for assessing the mag...
This chapter aims to describe step by step the development of a novel explicit biomechanical multibo...
A recent application of computer simulation is its use for the human body, which resembles a mechani...
In this research elbow flexion has been analysed and the moment of muscles and the reaction force ex...
This paper describes the development and evaluation of a musculoskeletal model that represents human...
Knowledge of dynamic forces acting on the upper limb is useful, and sometimes even necessary, in it...
Musculoskeletal dynamics is a branch of biomechanics that takes advantage of interdisciplinary mode...
In this paper a multibody model of the upper limb is presented. The limb is modelled as a three dim...
This dissertation describes the development and evaluation of a musculoskeletal model of the elbow j...
The aim of this paper is to present an explicit analytical biomechanical multibody procedure able to...
The purpose of the current research was to calculate the joint torques and joint reaction forces of ...
Musculoskeletal modelling is widely used in sports biomechanics for the estimation of joint and musc...
AbstractThe same as with dynamic models, all analytical biomechanical models can be analyzed directl...
INTRODUCTJON • Models for the simulation of sports activities with body impact draw many of their fe...
This paper describes a musculoskeletal model that represents human elbow flexion-extension and forea...