MasterThis thesis proposes a real-time non-rigid 3D human body reconstruction framework from depth images taken by a commercial color-depth camera. We take a consecutive color-depth image stream as the input and incrementally reconstruct a surface of the model in a 3D canonical TSDF volume space based on the estimated non-rigid warp field from the canonical space to the current input frame. Since the target domain is a human body, we exploit information of a skeletal structure for estimating the warp field of each bone in a hierarchical way and accelerate the computation time compared to previous works. Per-voxel non-rigid warpings are calculated via GPU parallel processing for real-time performance
This paper describes how to obtain accurate 3D body models and texture of arbitrary people from a si...
UnrestrictedA system for producing an accurate human body model is important and required in many fi...
Yu, JingyiRecently, the renewed interest in virtual reality (VR) and augmented reality (AR) has crea...
Figure 1: Our system enables the real-time capture of general shapes undergoing non-rigid deformatio...
We present real-time solution for 3D human body reconstruction with multiple RGB-D cameras. Our syst...
This paper presents a fully automated system for real-time 3D human visual hull reconstruction and s...
This thesis addresses the challenging problem of three-dimensional (3-D) reconstruction of a fast-mo...
In this paper, we present a markerless 3D motion capture system based on a volume reconstruction tec...
In this paper, we present a markerless 3D motion capture system based on a volume reconstruction tec...
A key task in computer vision is that of generating virtual 3D models of real-world scenes by recon...
We present a fast, robust, fault-tolerant and nonparametric approach to reconstruct 3D human skeleto...
Digital humans play the leading roles in every aspect of the virtual world. In recent years, multi-v...
Digital 3D models of the human body can be used to measure anthropometric features to diagnose disea...
Figure 1: From a monocular RGB-D sequence (background), we estimate a low-dimensional parametric mod...
Recent advances in sensor technology have introduced low-cost video+depth sensors, such as the Micro...
This paper describes how to obtain accurate 3D body models and texture of arbitrary people from a si...
UnrestrictedA system for producing an accurate human body model is important and required in many fi...
Yu, JingyiRecently, the renewed interest in virtual reality (VR) and augmented reality (AR) has crea...
Figure 1: Our system enables the real-time capture of general shapes undergoing non-rigid deformatio...
We present real-time solution for 3D human body reconstruction with multiple RGB-D cameras. Our syst...
This paper presents a fully automated system for real-time 3D human visual hull reconstruction and s...
This thesis addresses the challenging problem of three-dimensional (3-D) reconstruction of a fast-mo...
In this paper, we present a markerless 3D motion capture system based on a volume reconstruction tec...
In this paper, we present a markerless 3D motion capture system based on a volume reconstruction tec...
A key task in computer vision is that of generating virtual 3D models of real-world scenes by recon...
We present a fast, robust, fault-tolerant and nonparametric approach to reconstruct 3D human skeleto...
Digital humans play the leading roles in every aspect of the virtual world. In recent years, multi-v...
Digital 3D models of the human body can be used to measure anthropometric features to diagnose disea...
Figure 1: From a monocular RGB-D sequence (background), we estimate a low-dimensional parametric mod...
Recent advances in sensor technology have introduced low-cost video+depth sensors, such as the Micro...
This paper describes how to obtain accurate 3D body models and texture of arbitrary people from a si...
UnrestrictedA system for producing an accurate human body model is important and required in many fi...
Yu, JingyiRecently, the renewed interest in virtual reality (VR) and augmented reality (AR) has crea...