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4 results on '"Djeacoumar, Adarsh"'

1. Learning Image Fractals Using Chaotic Differentiable Point Splatting

Author

Djeacoumar, Adarsh, Mujkanovic, Felix, Seidel, Hans-Peter, and Leimkühler, Thomas

Subjects
Computer Science - Graphics
Abstract

Fractal geometry, defined by self-similar patterns across scales, is crucial for understanding natural structures. This work addresses the fractal inverse problem, which involves extracting fractal codes from images to explain these patterns and synthesize them at arbitrary finer scales. We introduce a novel algorithm that optimizes Iterated Function System parameters using a custom fractal generator combined with differentiable point splatting. By integrating both stochastic and gradient-based optimization techniques, our approach effectively navigates the complex energy landscapes typical of fractal inversion, ensuring robust performance and the ability to escape local minima. We demonstrate the method's effectiveness through comparisons with various fractal inversion techniques, highlighting its ability to recover high-quality fractal codes and perform extensive zoom-ins to reveal intricate patterns from just a single image., Comment: 14 pages; Eurographics 2025; project page at https://chaotic-fractals.mpi-inf.mpg.de/

Published
2025

2. Learning Images Across Scales Using Adversarial Training

Author

Wolski, Krzysztof, Djeacoumar, Adarsh, Javanmardi, Alireza, Seidel, Hans-Peter, Theobalt, Christian, Cordonnier, Guillaume, Myszkowski, Karol, Drettakis, George, Pan, Xingang, and Leimkühler, Thomas

Subjects
Computer Science - Graphics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

The real world exhibits rich structure and detail across many scales of observation. It is difficult, however, to capture and represent a broad spectrum of scales using ordinary images. We devise a novel paradigm for learning a representation that captures an orders-of-magnitude variety of scales from an unstructured collection of ordinary images. We treat this collection as a distribution of scale-space slices to be learned using adversarial training, and additionally enforce coherency across slices. Our approach relies on a multiscale generator with carefully injected procedural frequency content, which allows to interactively explore the emerging continuous scale space. Training across vastly different scales poses challenges regarding stability, which we tackle using a supervision scheme that involves careful sampling of scales. We show that our generator can be used as a multiscale generative model, and for reconstructions of scale spaces from unstructured patches. Significantly outperforming the state of the art, we demonstrate zoom-in factors of up to 256x at high quality and scale consistency., Comment: SIGGRAPH 2024; project page: https://scalespacegan.mpi-inf.mpg.de/

Published
2024

3. Neural Field Convolutions by Repeated Differentiation

Author

Nsampi, Ntumba Elie, Djeacoumar, Adarsh, Seidel, Hans-Peter, Ritschel, Tobias, and Leimkühler, Thomas

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics
Abstract

Neural fields are evolving towards a general-purpose continuous representation for visual computing. Yet, despite their numerous appealing properties, they are hardly amenable to signal processing. As a remedy, we present a method to perform general continuous convolutions with general continuous signals such as neural fields. Observing that piecewise polynomial kernels reduce to a sparse set of Dirac deltas after repeated differentiation, we leverage convolution identities and train a repeated integral field to efficiently execute large-scale convolutions. We demonstrate our approach on a variety of data modalities and spatially-varying kernels.

Published
2023
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