Your search keyword '"Buehler, Marcel"' showing total 18 results

1. SurFhead: Affine Rig Blending for Geometrically Accurate 2D Gaussian Surfel Head Avatars

Author

Lee, Jaeseong, Kang, Taewoong, Bühler, Marcel C., Kim, Min-Jung, Hwang, Sungwon, Hyung, Junha, Jang, Hyojin, and Choo, Jaegul

Subjects

Computer Science - Graphics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition

Abstract

Recent advancements in head avatar rendering using Gaussian primitives have achieved significantly high-fidelity results. Although precise head geometry is crucial for applications like mesh reconstruction and relighting, current methods struggle to capture intricate geometric details and render unseen poses due to their reliance on similarity transformations, which cannot handle stretch and shear transforms essential for detailed deformations of geometry. To address this, we propose SurFhead, a novel method that reconstructs riggable head geometry from RGB videos using 2D Gaussian surfels, which offer well-defined geometric properties, such as precise depth from fixed ray intersections and normals derived from their surface orientation, making them advantageous over 3D counterparts. SurFhead ensures high-fidelity rendering of both normals and images, even in extreme poses, by leveraging classical mesh-based deformation transfer and affine transformation interpolation. SurFhead introduces precise geometric deformation and blends surfels through polar decomposition of transformations, including those affecting normals. Our key contribution lies in bridging classical graphics techniques, such as mesh-based deformation, with modern Gaussian primitives, achieving state-of-the-art geometry reconstruction and rendering quality. Unlike previous avatar rendering approaches, SurFhead enables efficient reconstruction driven by Gaussian primitives while preserving high-fidelity geometry.

Published

2024

2. Cafca: High-quality Novel View Synthesis of Expressive Faces from Casual Few-shot Captures

Author

Bühler, Marcel C., Li, Gengyan, Wood, Erroll, Helminger, Leonhard, Chen, Xu, Shah, Tanmay, Wang, Daoye, Garbin, Stephan, Orts-Escolano, Sergio, Hilliges, Otmar, Lagun, Dmitry, Riviere, Jérémy, Gotardo, Paulo, Beeler, Thabo, Meka, Abhimitra, and Sarkar, Kripasindhu

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

Volumetric modeling and neural radiance field representations have revolutionized 3D face capture and photorealistic novel view synthesis. However, these methods often require hundreds of multi-view input images and are thus inapplicable to cases with less than a handful of inputs. We present a novel volumetric prior on human faces that allows for high-fidelity expressive face modeling from as few as three input views captured in the wild. Our key insight is that an implicit prior trained on synthetic data alone can generalize to extremely challenging real-world identities and expressions and render novel views with fine idiosyncratic details like wrinkles and eyelashes. We leverage a 3D Morphable Face Model to synthesize a large training set, rendering each identity with different expressions, hair, clothing, and other assets. We then train a conditional Neural Radiance Field prior on this synthetic dataset and, at inference time, fine-tune the model on a very sparse set of real images of a single subject. On average, the fine-tuning requires only three inputs to cross the synthetic-to-real domain gap. The resulting personalized 3D model reconstructs strong idiosyncratic facial expressions and outperforms the state-of-the-art in high-quality novel view synthesis of faces from sparse inputs in terms of perceptual and photo-metric quality., Comment: Siggraph Asia Conference Papers 2024

Published

2024

3. MagicMirror: Fast and High-Quality Avatar Generation with a Constrained Search Space

Author

Comas-Massagué, Armand, Qiu, Di, Chai, Menglei, Bühler, Marcel, Raj, Amit, Gao, Ruiqi, Xu, Qiangeng, Matthews, Mark, Gotardo, Paulo, Camps, Octavia, Orts-Escolano, Sergio, and Beeler, Thabo

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

We introduce a novel framework for 3D human avatar generation and personalization, leveraging text prompts to enhance user engagement and customization. Central to our approach are key innovations aimed at overcoming the challenges in photo-realistic avatar synthesis. Firstly, we utilize a conditional Neural Radiance Fields (NeRF) model, trained on a large-scale unannotated multi-view dataset, to create a versatile initial solution space that accelerates and diversifies avatar generation. Secondly, we develop a geometric prior, leveraging the capabilities of Text-to-Image Diffusion Models, to ensure superior view invariance and enable direct optimization of avatar geometry. These foundational ideas are complemented by our optimization pipeline built on Variational Score Distillation (VSD), which mitigates texture loss and over-saturation issues. As supported by our extensive experiments, these strategies collectively enable the creation of custom avatars with unparalleled visual quality and better adherence to input text prompts. You can find more results and videos in our website: https://syntec-research.github.io/MagicMirror

Published

2024

4. Preface: A Data-driven Volumetric Prior for Few-shot Ultra High-resolution Face Synthesis

Author

Bühler, Marcel C., Sarkar, Kripasindhu, Shah, Tanmay, Li, Gengyan, Wang, Daoye, Helminger, Leonhard, Orts-Escolano, Sergio, Lagun, Dmitry, Hilliges, Otmar, Beeler, Thabo, and Meka, Abhimitra

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

NeRFs have enabled highly realistic synthesis of human faces including complex appearance and reflectance effects of hair and skin. These methods typically require a large number of multi-view input images, making the process hardware intensive and cumbersome, limiting applicability to unconstrained settings. We propose a novel volumetric human face prior that enables the synthesis of ultra high-resolution novel views of subjects that are not part of the prior's training distribution. This prior model consists of an identity-conditioned NeRF, trained on a dataset of low-resolution multi-view images of diverse humans with known camera calibration. A simple sparse landmark-based 3D alignment of the training dataset allows our model to learn a smooth latent space of geometry and appearance despite a limited number of training identities. A high-quality volumetric representation of a novel subject can be obtained by model fitting to 2 or 3 camera views of arbitrary resolution. Importantly, our method requires as few as two views of casually captured images as input at inference time., Comment: In Proceedings of the IEEE/CVF International Conference on Computer Vision, 2023

Published

2023

5. EyeNeRF: A Hybrid Representation for Photorealistic Synthesis, Animation and Relighting of Human Eyes

Author

Li, Gengyan, Meka, Abhimitra, Müller, Franziska, Bühler, Marcel C., Hilliges, Otmar, and Beeler, Thabo

Subjects

Computer Science - Computer Vision and Pattern Recognition, I.4.5, I.3

Abstract

A unique challenge in creating high-quality animatable and relightable 3D avatars of people is modeling human eyes. The challenge of synthesizing eyes is multifold as it requires 1) appropriate representations for the various components of the eye and the periocular region for coherent viewpoint synthesis, capable of representing diffuse, refractive and highly reflective surfaces, 2) disentangling skin and eye appearance from environmental illumination such that it may be rendered under novel lighting conditions, and 3) capturing eyeball motion and the deformation of the surrounding skin to enable re-gazing. These challenges have traditionally necessitated the use of expensive and cumbersome capture setups to obtain high-quality results, and even then, modeling of the eye region holistically has remained elusive. We present a novel geometry and appearance representation that enables high-fidelity capture and photorealistic animation, view synthesis and relighting of the eye region using only a sparse set of lights and cameras. Our hybrid representation combines an explicit parametric surface model for the eyeball with implicit deformable volumetric representations for the periocular region and the interior of the eye. This novel hybrid model has been designed to address the various parts of that challenging facial area - the explicit eyeball surface allows modeling refraction and high-frequency specular reflection at the cornea, whereas the implicit representation is well suited to model lower-frequency skin reflection via spherical harmonics and can represent non-surface structures such as hair or diffuse volumetric bodies, both of which are a challenge for explicit surface models. We show that for high-resolution close-ups of the eye, our model can synthesize high-fidelity animated gaze from novel views under unseen illumination conditions., Comment: 16 pages, 16 figures, 1 table, to be published in ACM Transactions on Graphics (TOG) (Volume: 41, Issue: 4), 2022

Published

2022

6. I M Avatar: Implicit Morphable Head Avatars from Videos

Author

Zheng, Yufeng, Abrevaya, Victoria Fernández, Bühler, Marcel C., Chen, Xu, Black, Michael J., and Hilliges, Otmar

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Traditional 3D morphable face models (3DMMs) provide fine-grained control over expression but cannot easily capture geometric and appearance details. Neural volumetric representations approach photorealism but are hard to animate and do not generalize well to unseen expressions. To tackle this problem, we propose IMavatar (Implicit Morphable avatar), a novel method for learning implicit head avatars from monocular videos. Inspired by the fine-grained control mechanisms afforded by conventional 3DMMs, we represent the expression- and pose- related deformations via learned blendshapes and skinning fields. These attributes are pose-independent and can be used to morph the canonical geometry and texture fields given novel expression and pose parameters. We employ ray marching and iterative root-finding to locate the canonical surface intersection for each pixel. A key contribution is our novel analytical gradient formulation that enables end-to-end training of IMavatars from videos. We show quantitatively and qualitatively that our method improves geometry and covers a more complete expression space compared to state-of-the-art methods., Comment: Accepted at CVPR 2022 as an oral presentation. Project page https://ait.ethz.ch/projects/2022/IMavatar/ ; Github page: https://github.com/zhengyuf/IMavatar

Published

2021

7. VariTex: Variational Neural Face Textures

Author

Bühler, Marcel C., Meka, Abhimitra, Li, Gengyan, Beeler, Thabo, and Hilliges, Otmar

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Graphics, Computer Science - Machine Learning

Abstract

Deep generative models can synthesize photorealistic images of human faces with novel identities. However, a key challenge to the wide applicability of such techniques is to provide independent control over semantically meaningful parameters: appearance, head pose, face shape, and facial expressions. In this paper, we propose VariTex - to the best of our knowledge the first method that learns a variational latent feature space of neural face textures, which allows sampling of novel identities. We combine this generative model with a parametric face model and gain explicit control over head pose and facial expressions. To generate complete images of human heads, we propose an additive decoder that adds plausible details such as hair. A novel training scheme enforces a pose-independent latent space and in consequence, allows learning a one-to-many mapping between latent codes and pose-conditioned exterior regions. The resulting method can generate geometrically consistent images of novel identities under fine-grained control over head pose, face shape, and facial expressions. This facilitates a broad range of downstream tasks, like sampling novel identities, changing the head pose, expression transfer, and more. Code and models are available for research on https://mcbuehler.github.io/VariTex., Comment: In Proceedings of the IEEE/CVF International Conference on Computer Vision, 2021

Published

2021

8. DeepSEE: Deep Disentangled Semantic Explorative Extreme Super-Resolution

Author

Bühler, Marcel C., Romero, Andrés, and Timofte, Radu

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Super-resolution (SR) is by definition ill-posed. There are infinitely many plausible high-resolution variants for a given low-resolution natural image. Most of the current literature aims at a single deterministic solution of either high reconstruction fidelity or photo-realistic perceptual quality. In this work, we propose an explorative facial super-resolution framework, DeepSEE, for Deep disentangled Semantic Explorative Extreme super-resolution. To the best of our knowledge, DeepSEE is the first method to leverage semantic maps for explorative super-resolution. In particular, it provides control of the semantic regions, their disentangled appearance and it allows a broad range of image manipulations. We validate DeepSEE on faces, for up to 32x magnification and exploration of the space of super-resolution. Our code and models are available at: https://mcbuehler.github.io/DeepSEE/, Comment: 19 pages. Supplementary material is available on the project page. Accepted for oral presentation at the 15th Asian Conference on Computer Vision (ACCV) 2020

Published

2020

9. Content-Consistent Generation of Realistic Eyes with Style

Author

Bühler, Marcel, Park, Seonwook, De Mello, Shalini, Zhang, Xucong, and Hilliges, Otmar

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Accurately labeled real-world training data can be scarce, and hence recent works adapt, modify or generate images to boost target datasets. However, retaining relevant details from input data in the generated images is challenging and failure could be critical to the performance on the final task. In this work, we synthesize person-specific eye images that satisfy a given semantic segmentation mask (content), while following the style of a specified person from only a few reference images. We introduce two approaches, (a) one used to win the OpenEDS Synthetic Eye Generation Challenge at ICCV 2019, and (b) a principled approach to solving the problem involving simultaneous injection of style and content information at multiple scales. Our implementation is available at https://github.com/mcbuehler/Seg2Eye., Comment: 4 pages, 4 figures, ICCV Workshop 2019

Published

2019

10. DeepSEE: Deep Disentangled Semantic Explorative Extreme Super-Resolution

Author

Bühler, Marcel C., Romero, Andrés, Timofte, Radu, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Ishikawa, Hiroshi, editor, Liu, Cheng-Lin, editor, Pajdla, Tomas, editor, and Shi, Jianbo, editor

Published

2021

11. Using the inverse dispersion method to determine methane emissions from biogas plants and wastewater treatment plants with complex source configurations

Author

Bühler, Marcel, Häni, Christoph, Ammann, Christof, Brönnimann, Stefan, and Kupper, Thomas

Published

2022

12. Assessment of the inverse dispersion method for the determination of methane emissions from a dairy housing

Author

Bühler, Marcel, Häni, Christoph, Ammann, Christof, Mohn, Joachim, Neftel, Albrecht, Schrade, Sabine, Zähner, Michael, Zeyer, Kerstin, Brönnimann, Stefan, and Kupper, Thomas

Published

2021

13. DDDR-24. SINGLE-CELL FUNCTIONAL TISSUE PROFILING IDENTIFIES PROMISING CANDIDATES FOR DRUG REPURPOSING AGAINST GLIOBLASTOMA

Author

Weiss, Tobias, primary, Lee, Sohyon, additional, Buehler, Marcel, additional, Mena, Julien, additional, Lottenbach, Zuzanna, additional, Wegmann, Rebekka, additional, Bihl, Michael, additional, Sun, Miaomiao, additional, Goetze, Sandra, additional, van Drogen, Audrey, additional, Vasella, Flavio, additional, Wollscheid, Bernd, additional, Snijder, Berend, additional, and Weller, Michael, additional

Published

2023

14. Quantitative proteomic landscapes of primary and recurrent glioblastoma reveal a protumorigeneic role for FBXO2-dependent glioma-microenvironment interactions

Author

Buehler, Marcel, primary, Yi, Xiao, additional, Ge, Weigang, additional, Blattmann, Peter, additional, Rushing, Elisabeth, additional, Reifenberger, Guido, additional, Felsberg, Joerg, additional, Yeh, Charles, additional, Corn, Jacob E, additional, Regli, Luca, additional, Zhang, Junyi, additional, Cloos, Ann, additional, Ravi, Vidhya M, additional, Wiestler, Benedikt, additional, Heiland, Dieter Henrik, additional, Aebersold, Ruedi, additional, Weller, Michael, additional, Guo, Tiannan, additional, and Weiss, Tobias, additional

Published

2022

15. EyeNeRF

Author

Li, Gengyan, primary, Meka, Abhimitra, additional, Mueller, Franziska, additional, Buehler, Marcel C., additional, Hilliges, Otmar, additional, and Beeler, Thabo, additional

Published

2022

16. Uncovering new therapeutic opportunities for glioblastoma by image-based ex vivo drug-screening

Author

Lee, Sohyon, primary, Weiss, Tobias, additional, Buehler, Marcel, additional, Wegmann, Rebekka, additional, Mena, Julien, additional, Bihl, Michel, additional, Goetze, Sandra, additional, Drogen, Audrey van, additional, Rushing, Elisabeth, additional, Wollscheid, Bernd, additional, Weller, Michael, additional, and Snijder, Berend, additional

Published

2022

17. Quantitative proteomic landscapes of primary and recurrent glioblastoma reveal a protumorigeneic role for FBXO2-dependent glioma-microenvironment interactions.

Author

Buehler, Marcel, Yi, Xiao, Ge, Weigang, Blattmann, Peter, Rushing, Elisabeth, Reifenberger, Guido, Felsberg, Joerg, Yeh, Charles, Corn, Jacob E, Regli, Luca, Zhang, Junyi, Cloos, Ann, Ravi, Vidhya M, Wiestler, Benedikt, Heiland, Dieter Henrik, Aebersold, Ruedi, Weller, Michael, Guo, Tiannan, and Weiss, Tobias

Published

2023

18. EyeNeRF

Author

Li, Gengyan, Meka, Abhimitra, Mueller, Franziska, Buehler, Marcel C., Hilliges, Otmar, and Beeler, Thabo