Modeling Motion Prediction Techniques: Linear and Quadratic Splines vs Circular-Queue Vector Approach. Tello-Martinez, J., T., Starostenko, O., Alarcon-Aquino, V., & Hernandez, W. In 2010 IEEE Electronics, Robotics and Automotive Mechanics Conference, pages 366-371, 9, 2010. IEEE. ![Modeling Motion Prediction Techniques: Linear and Quadratic Splines vs Circular-Queue Vector Approach [link]](https://bibbase.org/img/filetypes/link.svg "link")
Website doi abstract bibtex The modeling and performance analysis of two novel approaches for motion prediction of objects in a limited sequence of images is presented in this paper. Particularly, these proposed approaches are based on linear or quadratic splines and on circular-queue vector correspondence. They use two basic motion detection techniques also proposed by authors that provide object tracing by its representation by envelope or by mass center grid. The performance and efficiency of the proposed motion prediction approaches are evaluated applying several simulated kinematics experiments either with constant velocity and accelerated motion, or with parabolic and circular motion.
@inproceedings{
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abstract = {The modeling and performance analysis of two novel approaches for motion prediction of objects in a limited sequence of images is presented in this paper. Particularly, these proposed approaches are based on linear or quadratic splines and on circular-queue vector correspondence. They use two basic motion detection techniques also proposed by authors that provide object tracing by its representation by envelope or by mass center grid. The performance and efficiency of the proposed motion prediction approaches are evaluated applying several simulated kinematics experiments either with constant velocity and accelerated motion, or with parabolic and circular motion.},
bibtype = {inproceedings},
author = {Tello-Martinez, Jose Tomas and Starostenko, Oleg and Alarcon-Aquino, Vicente and Hernandez, Wilmar},
doi = {10.1109/CERMA.2010.49},
booktitle = {2010 IEEE Electronics, Robotics and Automotive Mechanics Conference}
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