Add to ORKGThe goal of this study was to calculate muscle forces using different optimization techniques and investigate their effect on hip joint contact forces in gait and sit to stand. These contact forces were compared to measured hip contact forces [3]. The results showed that contact forces were overestimated, especially when muscle forces were calculated using computed muscle control. For static optimization, results were closest to measured contact forces. Also, differences between measured and calculated contact forces were dependent on the movement analyzed
It was the objective to analyze the influence of personalization of musculoskeletal models (MS) on m...
Musculoskeletal models and optimization methods are combined to calculate muscle forces. Some model ...
Musculoskeletal models generally solve the muscular redundancy by numerical optimisation. They have ...
The goal of this study was to calculate muscle forces using different optimization techniques and in...
In musculoskeletal modelling, several optimization techniques are used to calculate muscle forces, w...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
BACKGROUND: Assessment of contact forces is essential for a better understanding of mechanical facto...
Characterisation of hip joint contact forces is essential for the definition of hip joint prosthesis...
Patients with hip pathology present alterations in gait which have an effect on joint moments and lo...
An increase in hip joint contact forces (HJCFs) is one of the main contributing mechanical causes of...
<p>This study assessed the relative importance of introducing an increasing level of medical image-b...
At every joint there is a redundant set of muscle activated during movement or loading of the system...
Inverse dynamics problems are usually solved in the analysis of human gait to obtain reaction forces...
Musculoskeletal models represent a powerful tool to gain knowledge on the internal forces acting at ...
This study assessed the relative importance of introducing an increasing level of medical image-base...
It was the objective to analyze the influence of personalization of musculoskeletal models (MS) on m...
Musculoskeletal models and optimization methods are combined to calculate muscle forces. Some model ...
Musculoskeletal models generally solve the muscular redundancy by numerical optimisation. They have ...
The goal of this study was to calculate muscle forces using different optimization techniques and in...
In musculoskeletal modelling, several optimization techniques are used to calculate muscle forces, w...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
BACKGROUND: Assessment of contact forces is essential for a better understanding of mechanical facto...
Characterisation of hip joint contact forces is essential for the definition of hip joint prosthesis...
Patients with hip pathology present alterations in gait which have an effect on joint moments and lo...
An increase in hip joint contact forces (HJCFs) is one of the main contributing mechanical causes of...
<p>This study assessed the relative importance of introducing an increasing level of medical image-b...
At every joint there is a redundant set of muscle activated during movement or loading of the system...
Inverse dynamics problems are usually solved in the analysis of human gait to obtain reaction forces...
Musculoskeletal models represent a powerful tool to gain knowledge on the internal forces acting at ...
This study assessed the relative importance of introducing an increasing level of medical image-base...
It was the objective to analyze the influence of personalization of musculoskeletal models (MS) on m...
Musculoskeletal models and optimization methods are combined to calculate muscle forces. Some model ...
Musculoskeletal models generally solve the muscular redundancy by numerical optimisation. They have ...