This paper presents an efficient procedure to locate joint centers on 3D scanned human models. Using the hip joint centers (HJCs) as an example, we conducted an experiment to study the validity of the procedure. We carried out 3D body scanning on six subjects, which were attached with the necessary body landmarks. Another 12 participants were recruited to perform two tasks. The first task was to identify the locations of the body landmarks. We pre-programmed the estimation method to an in-house rigging system. The lower body bones were then placed by the system according to the estimated HJCs. The second task was to place the lower body bones based on visual judgments. The results show that the HJCs obtained in the first task are more accur...
Abstract: This paper presents a medical visualization tool implementing a hip joint modeling method ...
Biomechanical movement analysis in 3D requires estimation of joint centres in the lower extremities ...
Adjustment is necessary for wearable devices such as rehabilitation anthropomorphic leg devices and ...
AbstractFunctional hip joint center (HJC) calculation involves recording movements of femur relative...
The predictive methods are commonly used to estimate the Hip Joint Center (HJC) clinically. This stu...
The identification of an accurate, reliable and patient specific coordinate system for a bone is fun...
International audienceHuman external shape model is becoming easily available using scanning techno...
Preoperative planning, or intraoperative navigation of hip surgery, including joint-preserving proce...
International audienceAccurate localization of joint centers is essential in movement analysis. Howe...
The aim of this preliminary study was to determine the accuracy of CT-scan to locate the femoral hea...
The versatility of the hands is revealed in its movements, but often not noticed before trauma occur...
Accurate knowledge of the center of rotation (CoR) of anatomical joints is required for many researc...
none6Hip joint centre (HJC) localization is used in several biomedical applications, such as movemen...
Objective The aim of this study was to assess the accuracy of an imageless navigation system in loca...
Digital human models (also called digital manikins) have become instrumental tools in the analysis o...
Abstract: This paper presents a medical visualization tool implementing a hip joint modeling method ...
Biomechanical movement analysis in 3D requires estimation of joint centres in the lower extremities ...
Adjustment is necessary for wearable devices such as rehabilitation anthropomorphic leg devices and ...
AbstractFunctional hip joint center (HJC) calculation involves recording movements of femur relative...
The predictive methods are commonly used to estimate the Hip Joint Center (HJC) clinically. This stu...
The identification of an accurate, reliable and patient specific coordinate system for a bone is fun...
International audienceHuman external shape model is becoming easily available using scanning techno...
Preoperative planning, or intraoperative navigation of hip surgery, including joint-preserving proce...
International audienceAccurate localization of joint centers is essential in movement analysis. Howe...
The aim of this preliminary study was to determine the accuracy of CT-scan to locate the femoral hea...
The versatility of the hands is revealed in its movements, but often not noticed before trauma occur...
Accurate knowledge of the center of rotation (CoR) of anatomical joints is required for many researc...
none6Hip joint centre (HJC) localization is used in several biomedical applications, such as movemen...
Objective The aim of this study was to assess the accuracy of an imageless navigation system in loca...
Digital human models (also called digital manikins) have become instrumental tools in the analysis o...
Abstract: This paper presents a medical visualization tool implementing a hip joint modeling method ...
Biomechanical movement analysis in 3D requires estimation of joint centres in the lower extremities ...
Adjustment is necessary for wearable devices such as rehabilitation anthropomorphic leg devices and ...