<p>Marker locations of the motion capture data used for the patient-specific parameter optimization of the model.</p
Motion capture is frequently used for studies in biomechanics, and has proved particularly useful in...
Nowadays, facial mimicry studies have acquired a great importance in the clinical domain and 3D moti...
<p><b>A</b> Motion capture area as seen from above. The four targets are placed at a distance of 180...
Marker‐based motion capture techniques are commonly used to measure human body kinematics. These tec...
One of the biggest challenges in marker-based motion capture is maintaining accuracy and precision. ...
Inverse kinematics used to generate simulated marker trajectories for use with an automatic motion c...
Location of the measurement points used to evaluate the mean concentration of each specie.</p
<p>Position of reflective markers for kinematic data collection from a broiler chicken.</p
<p>Representative image of the experimental setup including 10 camera positions (pyramids), in-groun...
<p>The detailed data of marker motion during free-breathing and inter-CBCT session marker displaceme...
<p>(A) In a front view; (B) in a back view; (C) reconstructed kinematic model based on the marker se...
This report considers the problem of using marker locations from optical motion capture data to iden...
Passive optical motion capture is one of the predominant technologies for capturing high fidelity hu...
Model-based optical motion capture systems require knowledge of the position of the markers relative...
<p>The small 3-point marker (left) suitable for rat head tracking, and the larger 8-point marker (ri...
Motion capture is frequently used for studies in biomechanics, and has proved particularly useful in...
Nowadays, facial mimicry studies have acquired a great importance in the clinical domain and 3D moti...
<p><b>A</b> Motion capture area as seen from above. The four targets are placed at a distance of 180...
Marker‐based motion capture techniques are commonly used to measure human body kinematics. These tec...
One of the biggest challenges in marker-based motion capture is maintaining accuracy and precision. ...
Inverse kinematics used to generate simulated marker trajectories for use with an automatic motion c...
Location of the measurement points used to evaluate the mean concentration of each specie.</p
<p>Position of reflective markers for kinematic data collection from a broiler chicken.</p
<p>Representative image of the experimental setup including 10 camera positions (pyramids), in-groun...
<p>The detailed data of marker motion during free-breathing and inter-CBCT session marker displaceme...
<p>(A) In a front view; (B) in a back view; (C) reconstructed kinematic model based on the marker se...
This report considers the problem of using marker locations from optical motion capture data to iden...
Passive optical motion capture is one of the predominant technologies for capturing high fidelity hu...
Model-based optical motion capture systems require knowledge of the position of the markers relative...
<p>The small 3-point marker (left) suitable for rat head tracking, and the larger 8-point marker (ri...
Motion capture is frequently used for studies in biomechanics, and has proved particularly useful in...
Nowadays, facial mimicry studies have acquired a great importance in the clinical domain and 3D moti...
<p><b>A</b> Motion capture area as seen from above. The four targets are placed at a distance of 180...
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