SNOPT: An SQP Algorithm for Large-Scale Constrained Optimization
SIAM Journal on Optimization
Hierarchical implicit surface joint limits for human body tracking
Computer Vision and Image Understanding
Validation of predicted posture for the virtual human Santos®
ICDHM'07 Proceedings of the 1st international conference on Digital human modeling
ICDHM'11 Proceedings of the Third international conference on Digital human modeling
ICDHM'11 Proceedings of the Third international conference on Digital human modeling
Computers and Industrial Engineering
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Optimization-based digital human model research has gained significant momentum among various human models. Any task can be formulated to an optimization problem, and the model can predict not only postures but also motions. However, these optimization-based digital human models need validation using experiments. The motion capture system is one of the ways to validate predicted results. This paper summarizes the progress of motion capture experiment efforts at the Human-Centric Design Research (HCDR) Laboratory at Texas Tech University. An eight-camera motion capture system has been set up in our research lab. Marker placement protocols have been developed where markers are placed on the subjects to highlight bony landmarks and identify segments between joints in line with previously identified guidelines and suggestions in literature. A posture reconstruction algorithm has been developed to map joint angles from motion capture experiments to digital human models. Various studies have been conducted in the lab involving motion capture experiments for jumping, standing and seated reach, and pregnant women's walking, sit to standing, seated reach, and reach with external loads. The results showed that the posture reconstruction algorithm is useful and accurate to transfer motion capture experiment data to joint angles. Marker placement protocol is reliable to capture all joints. The main task of the motion caption system is to validate all optimization-based digital human models developed by other research members at the HCDR Lab.