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HyperDiffusion: Generating Implicit Neural Fields with Weight-Space Diffusion

Ziya Erkoç, Fangchang Ma, Qi Shan, Matthias Nießner, Angela Dai

202351 citationsDOI

Abstract

Implicit neural fields, typically encoded by a multilayer perceptron (MLP) that maps from coordinates (e.g., xyz) to signals (e.g., signed distances), have shown remarkable promise as a high-fidelity and compact representation. However, the lack of a regular and explicit grid structure also makes it challenging to apply generative modeling directly on implicit neural fields in order to synthesize new data. To this end, we propose HyperDiffusion, a novel approach for unconditional generative modeling of implicit neural fields. HyperDiffusion operates directly on MLP weights and generates new neural implicit fields encoded by synthesized MLP parameters. Specifically, a collection of MLPs is first optimized to faithfully represent individual data samples. Subsequently, a diffusion process is trained in this MLP weight space to model the underlying distribution of neural implicit fields. HyperDiffusion enables diffusion modeling over a implicit, compact, and yet high-fidelity representation of complex signals across 3D shapes and 4D mesh animations within one single unified framework.

Topics & Concepts

Computer scienceArtificial neural networkRepresentation (politics)FidelityGenerative modelAlgorithmPerceptronField (mathematics)Artificial intelligencePattern recognition (psychology)GridGenerative grammarMathematicsGeometryLawPure mathematicsPoliticsTelecommunicationsPolitical scienceComputer Graphics and Visualization Techniques3D Shape Modeling and AnalysisAdvanced Numerical Analysis Techniques