“Implicit Functions in Feature Space for 3D Shape Reconstruction and Completion,” in IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR 2020), Seattle, WA, USA (Virtual), 2020.
Thiemo Alldieck (Guest)
Personal Information
Visiting PhD student at the "Real Virtual Humans" group.
Research Interests
- Computer vision for graphics
- Analyzing people in monocular video
Recent Publications
Detailed Human Avatars from Monocular Video
T. Alldieck, M. Magnor, W. Xu, C. Theobalt, G. Pons-Moll
International Conference on 3D Vision, 2018
[project page] [arXiv]
Video Based Reconstruction of 3D People Models
T. Alldieck, M. Magnor, W. Xu, C. Theobalt, G. Pons-Moll
IEEE Conference on Computer Vision and Pattern Recognition, 2018 (Spotlight)
[project page] [arXiv]
See my homepage for full list of publications.
Publications
2020
- “Learning to Transfer Texture from Clothing Images to 3D Humans,” in IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR 2020), Seattle, WA, USA (Virtual), 2020.
2019
- “Learning to Reconstruct People in Clothing from a Single RGB Camera,” in IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR 2019), Long Beach, CA, USA, 2019.
- “Tex2Shape: Detailed Full Human Body Geometry from a Single Image,” in International Conference on Computer Vision (ICCV 2019), Seoul, Korea, 2019.mehr
Abstract
We present a simple yet effective method to infer detailed full human body
shape from only a single photograph. Our model can infer full-body shape
including face, hair, and clothing including wrinkles at interactive
frame-rates. Results feature details even on parts that are occluded in the
input image. Our main idea is to turn shape regression into an aligned
image-to-image translation problem. The input to our method is a partial
texture map of the visible region obtained from off-the-shelf methods. From a
partial texture, we estimate detailed normal and vector displacement maps,
which can be applied to a low-resolution smooth body model to add detail and
clothing. Despite being trained purely with synthetic data, our model
generalizes well to real-world photographs. Numerous results demonstrate the
versatility and robustness of our method.
2018
- “Detailed Human Avatars from Monocular Video,” in 3DV 2018 , International Conference on 3D Vision, Verona, Italy, 2018.