A mathematical inertia model which permits the determination of personalized segmental inertia parameter values from anthropometric measurements is described. The human body is modelled using 40 geometric solids which are specified by 95 anthropometric measurements. A ‘stadium’ solid is introduced for modelling the torso segments using perimeter and width measurements. This procedure is more accurate than the use of elliptical discs of given width and depth and permits a smaller number or such solids to be used. Inertia parameter values may be obtained for body models of up to 20 segments. Errors in total body mass estimates from this and other models are discussed with reference to the unknown lung volumes
The development of technique, application of video cameras produced the necessity of a system for an...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
The use of computer simulation models in studies of human movement is now widespread. Most of these...
A computer simulation model of human airborne movement is described. The body is modelled as 11 rigi...
A method is presented for determining the angular momentum of the human body about its mass centre f...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
The accurate estimation of inertial properties of individual body segments, including mass and momen...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
The simulation of aerial movement—III. The determination of the angular momentum of the human body T...
A mathematical model is presented which is capable of determining subject-specific inertia parameter...
In the field of sports biomechanics, a human body is often treated as a linkage model to investigate...
The estimation of segment inertial parameters (SIPs) is an important source of error in inverse dyna...
Abstract- A model is presented for determining by computation the parameter values of anthropomorphi...
Geometric models can provide individual- specific body segment inertial parameter (BSIP) estimates...
Body segment inertial parameters (BSIPs) of the human body are key parameters in biomechanics to stu...
The development of technique, application of video cameras produced the necessity of a system for an...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
The use of computer simulation models in studies of human movement is now widespread. Most of these...
A computer simulation model of human airborne movement is described. The body is modelled as 11 rigi...
A method is presented for determining the angular momentum of the human body about its mass centre f...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
The accurate estimation of inertial properties of individual body segments, including mass and momen...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
The simulation of aerial movement—III. The determination of the angular momentum of the human body T...
A mathematical model is presented which is capable of determining subject-specific inertia parameter...
In the field of sports biomechanics, a human body is often treated as a linkage model to investigate...
The estimation of segment inertial parameters (SIPs) is an important source of error in inverse dyna...
Abstract- A model is presented for determining by computation the parameter values of anthropomorphi...
Geometric models can provide individual- specific body segment inertial parameter (BSIP) estimates...
Body segment inertial parameters (BSIPs) of the human body are key parameters in biomechanics to stu...
The development of technique, application of video cameras produced the necessity of a system for an...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
The use of computer simulation models in studies of human movement is now widespread. Most of these...