We propose a multi-sensor fusion method for capturing challenging 3D human motions with accurate consecutive local poses and global trajectories in large-scale scenarios, only using a single LiDAR and 4 IMUs. Specifically, to fully utilize the global geometry information captured by LiDAR and local dynamic motions captured by IMUs, we design a two-stage pose estimator in a coarse-to-fine manner, where point clouds provide the coarse body shape and IMU measurements optimize the local actions. Furthermore, considering the translation deviation caused by the view-dependent partial point cloud, we propose a pose-guided translation corrector. It predicts the offset between captured points and the real root locations, which makes the consecutive ...
International audienceWe address 3D human motion capture from monocular images, taking a learning ba...
Ego-motion estimation is a fundamental building block of any autonomous system that needs to navigat...
A well known problem in computer vision and photogrammetry is the precise online mapping of the surr...
Depth estimation is usually ill-posed and ambiguous for monocular camera-based 3D multi-person pose ...
Ego-motion sensors are commonly used for pose estimation in Simultaneous Localization And Mapping (S...
We propose an approach to accurately esti- mate 3D human pose by fusing multi-viewpoint video (MVV) ...
Realizing robust six degrees of freedom (6DOF) state estimation and high-performance simultaneous lo...
The analysis and understanding of human movement is central to many applications such as sports scie...
IEEE We present an efficient multi-sensor odometry system for mobile platforms that jointly optimize...
Abstract—We introduce a new dataset,Human3.6M, of3.6Million accurate 3DHuman poses, acquired by reco...
We present a system for the estimation of unconstrained 3D human upper body movement from multiple c...
We propose a generative framework for 3D human pose estimation that is able to operate on both indiv...
Simultaneous localization and mapping is a fundamental process in robot navigation. We focus on LiDA...
A well known problem in photogrammetry and computer vision is the precise and robust determination o...
© 2016 IEEE. Estimating the position and orientation (pose) of a moving platform in a three-dimensio...
International audienceWe address 3D human motion capture from monocular images, taking a learning ba...
Ego-motion estimation is a fundamental building block of any autonomous system that needs to navigat...
A well known problem in computer vision and photogrammetry is the precise online mapping of the surr...
Depth estimation is usually ill-posed and ambiguous for monocular camera-based 3D multi-person pose ...
Ego-motion sensors are commonly used for pose estimation in Simultaneous Localization And Mapping (S...
We propose an approach to accurately esti- mate 3D human pose by fusing multi-viewpoint video (MVV) ...
Realizing robust six degrees of freedom (6DOF) state estimation and high-performance simultaneous lo...
The analysis and understanding of human movement is central to many applications such as sports scie...
IEEE We present an efficient multi-sensor odometry system for mobile platforms that jointly optimize...
Abstract—We introduce a new dataset,Human3.6M, of3.6Million accurate 3DHuman poses, acquired by reco...
We present a system for the estimation of unconstrained 3D human upper body movement from multiple c...
We propose a generative framework for 3D human pose estimation that is able to operate on both indiv...
Simultaneous localization and mapping is a fundamental process in robot navigation. We focus on LiDA...
A well known problem in photogrammetry and computer vision is the precise and robust determination o...
© 2016 IEEE. Estimating the position and orientation (pose) of a moving platform in a three-dimensio...
International audienceWe address 3D human motion capture from monocular images, taking a learning ba...
Ego-motion estimation is a fundamental building block of any autonomous system that needs to navigat...
A well known problem in computer vision and photogrammetry is the precise online mapping of the surr...