Typical inverse dynamics approaches to the calculation of muscle, ligament, and joint contact forces are based on a step-wise solution of the equations of motion. This approach is therefore limited in its ability to provide insight as to the muscular, ligamentous, and articular interactions that create joint stability. In this study, a new musculoskeletal model of the lower limb is described, in which the equations of motion describing the force and moment equilibrium at the joints of the lower limb are solved simultaneously using optimization techniques. The new model was employed to analyze vertical jumping using a variety of different optimization cost functions and the results were compared to more traditional approaches. The new model ...
The calculation of the patellofemoral joint contact force using three-dimensional (3D) modelling tec...
Concurrent multiscale simulation strategies are required in computational biomechanics to study the ...
The purpose of this research is to investigate muscular ligament and joint contact forces produced d...
Musculoskeletal models are widely used in biomechanics today to better understand muscle and joint f...
Previous research has demonstrated that the number of degrees of freedom (DOF) modelled at a given j...
Traditional inverse dynamics approaches to calculating the inter-segmental moments are limited in th...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
This work deals with the dynamics of the human knee during vertical jump exercise. The focus is on t...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
The interaction and load sharing between muscles, ligaments and articulating surfaces is crucial fo...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
At every joint there is a redundant set of muscle activated during movement or loading of the system...
Musculo-tendon forces and joint reaction forces are typically estimated using a two-step method, com...
At every joint there is a redundant set of muscle activated during movement or loading of the system...
A key strength of computational modeling is that it can provide estimates of muscle, ligament, and j...
The calculation of the patellofemoral joint contact force using three-dimensional (3D) modelling tec...
Concurrent multiscale simulation strategies are required in computational biomechanics to study the ...
The purpose of this research is to investigate muscular ligament and joint contact forces produced d...
Musculoskeletal models are widely used in biomechanics today to better understand muscle and joint f...
Previous research has demonstrated that the number of degrees of freedom (DOF) modelled at a given j...
Traditional inverse dynamics approaches to calculating the inter-segmental moments are limited in th...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
This work deals with the dynamics of the human knee during vertical jump exercise. The focus is on t...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
The interaction and load sharing between muscles, ligaments and articulating surfaces is crucial fo...
Traditional approaches to the biomechanical analysis of movement are joint-based; that is the mechan...
At every joint there is a redundant set of muscle activated during movement or loading of the system...
Musculo-tendon forces and joint reaction forces are typically estimated using a two-step method, com...
At every joint there is a redundant set of muscle activated during movement or loading of the system...
A key strength of computational modeling is that it can provide estimates of muscle, ligament, and j...
The calculation of the patellofemoral joint contact force using three-dimensional (3D) modelling tec...
Concurrent multiscale simulation strategies are required in computational biomechanics to study the ...
The purpose of this research is to investigate muscular ligament and joint contact forces produced d...