Add to ORKGComputational models are useful tools to study the biomechanics of human joints. Their predictive performance is heavily dependent on bony anatomy and soft tissue properties. Imaging data provides anatomical requirements while approximate tissue properties are implemented from literature data, when available. We sought to improve the predictive capability of a computational foot/ankle model by optimizing its ligament stiffness inputs using feedforward and radial basis function neural networks. While the former demonstrated better performance than the latter per mean square error, both networks provided reasonable stiffness predictions for implementation into the computational model
— Artificial neural network has been implemented in many filed, and one of the most famous estimato...
Artificial Neural Network (ANN) model has been developed to correlate age of severely osteoarthritic...
The aim of this study was to predict the effect of physical factors on tibial motion by making use o...
Computational models are useful tools to study the biomechanics of human joints. Their predictive pe...
Computational joint models provide insight into the biomechanical function of human joints. Through...
Abstracts of the Biomedical and General Engineering Section for the 94th Annual Virginia Academy of ...
Complementary to experimental studies, computational biomechanics has become useful tool for the und...
Computational modeling of joints and their function, a developing field, is becoming a significant h...
Computational models of musculoskeletal joints and limbs can provide useful information about joint ...
Current ankle morphometric measurement tools involve the use of radiographic techniques which may be...
Current ankle morphometric measurement tools involve the use of radiographic techniques which maybe ...
Ankle sprains account for 10% to 15% of reported sports injuries. High ankle sprains are currently t...
Major ankle sprains in sports are thought to be due to high levels of ankle torsion. The purpose of ...
3D image based subject specific models of the ankle complex can be extremely significant in a wide v...
Artificial Intelligence (AI) is acquiring more recognition than ever by researchers and machine lear...
— Artificial neural network has been implemented in many filed, and one of the most famous estimato...
Artificial Neural Network (ANN) model has been developed to correlate age of severely osteoarthritic...
The aim of this study was to predict the effect of physical factors on tibial motion by making use o...
Computational models are useful tools to study the biomechanics of human joints. Their predictive pe...
Computational joint models provide insight into the biomechanical function of human joints. Through...
Abstracts of the Biomedical and General Engineering Section for the 94th Annual Virginia Academy of ...
Complementary to experimental studies, computational biomechanics has become useful tool for the und...
Computational modeling of joints and their function, a developing field, is becoming a significant h...
Computational models of musculoskeletal joints and limbs can provide useful information about joint ...
Current ankle morphometric measurement tools involve the use of radiographic techniques which may be...
Current ankle morphometric measurement tools involve the use of radiographic techniques which maybe ...
Ankle sprains account for 10% to 15% of reported sports injuries. High ankle sprains are currently t...
Major ankle sprains in sports are thought to be due to high levels of ankle torsion. The purpose of ...
3D image based subject specific models of the ankle complex can be extremely significant in a wide v...
Artificial Intelligence (AI) is acquiring more recognition than ever by researchers and machine lear...
— Artificial neural network has been implemented in many filed, and one of the most famous estimato...
Artificial Neural Network (ANN) model has been developed to correlate age of severely osteoarthritic...
The aim of this study was to predict the effect of physical factors on tibial motion by making use o...