This study had two purposes: to evaluate a new method for measuring segmental dimensions for determining body segment inertial parameters (BSIP), and to evaluate the changes in mass distribution within a limb as a consequence of muscular contraction. BSIP were calculated by obtaining surface data points of the body under investigation using a sonic digitizer, interpolating them into a regular grid, and then using Green’s theorem which relates surface to volume integrals. Four skilled operators measured a test object; the error was approximately 2.5% and repeatability was 1.4% (coefficient of variation) in the determination of BSIP. Six operators took repeat measures on human lower legs; coefficients of variation were typically around 5%, an...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
grantor: University of TorontoSix Degree of Freedom (DOF) Rigid Body modeling techniques c...
Soft-tissue artifacts cause inaccurate estimates of body segment orientations. The inertial sensor (...
Présentation d'une nouvelle méthode pour estimer les données inertielles des segments corporels, uti...
Body segment parameters such as segment mass, centre of mass and moment of inertia, serve as importa...
Body segment inertial parameters (BSIPs) of the human body are key parameters in biomechanics to stu...
Three approaches to estimate body segment parameters (BSP) are compared, a volume-scanning photograp...
42ième congrès de la Sociéte de Biomécanique francophone, REIMS, FRANCE, 02-/11/2017 - 03/11/2017Bod...
In the field of sports biomechanics, a human body is often treated as a linkage model to investigate...
Many biomechanical analyses rely on the availability of reliable body segment inertia parameter (BSI...
The knowledge of human body proportions and segmental properties of limbs, head and trunk is of fund...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
INTRODUCTION: For kinematic and dynamic studies of the lower limbs, using a three dimensional model ...
Accurate knowledge of body segment inertia parameters (BSIP) improves the assessment of dynamic anal...
The aims of this study were to quantify intra-segmental motion using an array of 28 surface mounted ...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
grantor: University of TorontoSix Degree of Freedom (DOF) Rigid Body modeling techniques c...
Soft-tissue artifacts cause inaccurate estimates of body segment orientations. The inertial sensor (...
Présentation d'une nouvelle méthode pour estimer les données inertielles des segments corporels, uti...
Body segment parameters such as segment mass, centre of mass and moment of inertia, serve as importa...
Body segment inertial parameters (BSIPs) of the human body are key parameters in biomechanics to stu...
Three approaches to estimate body segment parameters (BSP) are compared, a volume-scanning photograp...
42ième congrès de la Sociéte de Biomécanique francophone, REIMS, FRANCE, 02-/11/2017 - 03/11/2017Bod...
In the field of sports biomechanics, a human body is often treated as a linkage model to investigate...
Many biomechanical analyses rely on the availability of reliable body segment inertia parameter (BSI...
The knowledge of human body proportions and segmental properties of limbs, head and trunk is of fund...
INTRODUCTION: The growth of computer technology helps us to understand and analyze human movement pa...
INTRODUCTION: For kinematic and dynamic studies of the lower limbs, using a three dimensional model ...
Accurate knowledge of body segment inertia parameters (BSIP) improves the assessment of dynamic anal...
The aims of this study were to quantify intra-segmental motion using an array of 28 surface mounted ...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
grantor: University of TorontoSix Degree of Freedom (DOF) Rigid Body modeling techniques c...
Soft-tissue artifacts cause inaccurate estimates of body segment orientations. The inertial sensor (...