Computer simulation of human gait, based on measured motion data, is a well-established technique in biomechanics. However, optimisation studies requiring many iterative gait cycle simulations have not yet found widespread application because of their high computational cost. Therefore, a computationally efficient inverse dynamics model of 3D human gait has been designed and compared with an equivalent model, created using a commercial multi-body dynamics package. The fast inverse dynamics model described in this paper led to an eight fold increase in execution speed. Sufficient detail is provided to allow readers to implement the model themselves
Present-day science makes extensive use of the simulation. Our work focuses on simulating human gait...
This paper presents a three-dimensional (3D) whole body multi-segment model for inverse dynamics ana...
Physiologically and biomechanically, the human body represents a complicated system with an abundanc...
Computer simulation of human gait, based on measured motion data, is a well-established technique in...
An inverse dynamics multi-segment model of the body was combined with optimisation techniques to sim...
Predictive simulation of human walking has great potential in clinical motion analysis and rehabilit...
Physics-based predictive simulations of human movement have the potential to support personalized me...
The main goal of this work is to present planar biomechanical multibody models, suitable to be used ...
Modelling human gait has become an invaluable tool in a wide range of fields such as robotics and re...
The analysis of a captured motion can be addressed by means of forward or inverse dynamics approache...
Predictive simulations hold the potential to greatly expedite advances in understanding healthy and ...
Summary. A predictive forward-dynamic simulation of human gait would be ex-tremely useful to many di...
Locomotion is a major component of human activity, and there have been many attempts to reveal its p...
AbstractThe paper deals with the historical development of human body dynamics, and it presents resu...
Gait analysis is commonly addressed through inverse dynamics. However, forward dynamics can be advan...
Present-day science makes extensive use of the simulation. Our work focuses on simulating human gait...
This paper presents a three-dimensional (3D) whole body multi-segment model for inverse dynamics ana...
Physiologically and biomechanically, the human body represents a complicated system with an abundanc...
Computer simulation of human gait, based on measured motion data, is a well-established technique in...
An inverse dynamics multi-segment model of the body was combined with optimisation techniques to sim...
Predictive simulation of human walking has great potential in clinical motion analysis and rehabilit...
Physics-based predictive simulations of human movement have the potential to support personalized me...
The main goal of this work is to present planar biomechanical multibody models, suitable to be used ...
Modelling human gait has become an invaluable tool in a wide range of fields such as robotics and re...
The analysis of a captured motion can be addressed by means of forward or inverse dynamics approache...
Predictive simulations hold the potential to greatly expedite advances in understanding healthy and ...
Summary. A predictive forward-dynamic simulation of human gait would be ex-tremely useful to many di...
Locomotion is a major component of human activity, and there have been many attempts to reveal its p...
AbstractThe paper deals with the historical development of human body dynamics, and it presents resu...
Gait analysis is commonly addressed through inverse dynamics. However, forward dynamics can be advan...
Present-day science makes extensive use of the simulation. Our work focuses on simulating human gait...
This paper presents a three-dimensional (3D) whole body multi-segment model for inverse dynamics ana...
Physiologically and biomechanically, the human body represents a complicated system with an abundanc...