Human Pose Co-Estimation and Applications
Copyright policy )Human Pose Co-Estimation and Applications
Most existing techniques for articulated Human Pose Estimation (HPE)consider each person independently. Here we tackle the problem in a new setting,coined Human Pose Coestimation (PCE), where multiple people are in a common,but unknown pose. The task of PCE is to estimate their poses jointly and toproduce prototypes characterizing the shared pose. Since the poses of the individual people should be similar to the prototype, PCE has less freedom compared to estimating each pose independently, which simplifies the problem.We demonstrate our PCE technique on two applications. The first is estimating the pose of people performing the same activity synchronously, such as during aerobics, cheerleading, and dancing in a group. We show that PCE improves pose estimation accuracy over estimating each person independently. The second application is learning prototype poses characterizing a pose class directly from an image search engine queried by the class name (e.g., “lotus pose”). We show that PCE leads to better pose estimation in such images, and it learns meaningful prototypes which can be used as priors for pose estimation in novel images.
- ETH Zurich Switzerland
- University of Edinburgh United Kingdom
- Computer Vision Laboratory Switzerland
Kinematics, dancing, prototype poses, Posture, aerobics, Synchronization, pose estimation, multiple image correspondence, Sensitivity and Specificity, image retrieval, search engines, cheerleading, Pattern Recognition, Automated, Artificial Intelligence, Image Interpretation, Computer-Assisted, Prototypes, Humans, image search engine, Whole Body Imaging, PCE technique, human pose coestimation, Human pose estimation, Reproducibility of Results, Computational modeling, Detectors, object detection, Image Enhancement, HPE, articulated human pose estimation, Subtraction Technique, Estimation, articulated objects, Algorithms
Kinematics, dancing, prototype poses, Posture, aerobics, Synchronization, pose estimation, multiple image correspondence, Sensitivity and Specificity, image retrieval, search engines, cheerleading, Pattern Recognition, Automated, Artificial Intelligence, Image Interpretation, Computer-Assisted, Prototypes, Humans, image search engine, Whole Body Imaging, PCE technique, human pose coestimation, Human pose estimation, Reproducibility of Results, Computational modeling, Detectors, object detection, Image Enhancement, HPE, articulated human pose estimation, Subtraction Technique, Estimation, articulated objects, Algorithms
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