A model of the human head and neck that incorporates active and passive muscles is utilized in the analysis of non-impact loading in high “g” environments. The active muscles have the capability to be activated partially and in different combinations.The model is implemented in MADYMO using lumped parameters and Hill muscles. A comparison of simulation results with experimental data, generated by the Naval Biodynamics Laboratory (NBDL) for neck flexion and rebound, shows excellent agreement for a 15g impulsive load
The aim of the present study is to model the dynamic of the head/neck complex to understand muscle s...
A multi-body computational model of the human head and neck was previously shown to be in good agree...
Objective: ViVA OpenHBM is the first open source Human Body Model (HBM) for crash safety assessment....
A model of the human head and neck that incorporates active and passive muscles is utilized in the a...
A model of the human head and neck that incorporates active and passive muscles is presented for use...
A computational 50th percentile male head and neck complex model was correlated to physical experime...
The activation of the neck musculature plays an important role in the response of the head and neck ...
A computational, rigid body model of a 50th percentile male head and neck utilizing 15 Hill Muscle p...
In the past, muscle activation has been identified as having an important effect on the head-neck re...
Numerical human body models that can predict occupant head and neck responses are essential for the ...
Human Body Models (HBMs) have been used in crash safety research for some time, and are now emerging...
The goal of this study was to develop and apply a method that overcomes limitations of the currently...
Objective. The objective of this research was to develop a muscle-driven biomechanical model of the...
Human Body Models (HBMs) have been used in crash safety research for some time, and are now emerging...
ViVA Open Human Body Model (HBM) is an open-source human body model that was developed to fill the g...
The aim of the present study is to model the dynamic of the head/neck complex to understand muscle s...
A multi-body computational model of the human head and neck was previously shown to be in good agree...
Objective: ViVA OpenHBM is the first open source Human Body Model (HBM) for crash safety assessment....
A model of the human head and neck that incorporates active and passive muscles is utilized in the a...
A model of the human head and neck that incorporates active and passive muscles is presented for use...
A computational 50th percentile male head and neck complex model was correlated to physical experime...
The activation of the neck musculature plays an important role in the response of the head and neck ...
A computational, rigid body model of a 50th percentile male head and neck utilizing 15 Hill Muscle p...
In the past, muscle activation has been identified as having an important effect on the head-neck re...
Numerical human body models that can predict occupant head and neck responses are essential for the ...
Human Body Models (HBMs) have been used in crash safety research for some time, and are now emerging...
The goal of this study was to develop and apply a method that overcomes limitations of the currently...
Objective. The objective of this research was to develop a muscle-driven biomechanical model of the...
Human Body Models (HBMs) have been used in crash safety research for some time, and are now emerging...
ViVA Open Human Body Model (HBM) is an open-source human body model that was developed to fill the g...
The aim of the present study is to model the dynamic of the head/neck complex to understand muscle s...
A multi-body computational model of the human head and neck was previously shown to be in good agree...
Objective: ViVA OpenHBM is the first open source Human Body Model (HBM) for crash safety assessment....