Scholar
Christoph Neuhauser
Google Scholar ID: 9Mp2q0sAAAAJ
Technical University of Munich
Citations & Impact
Citations
78
H-index
5
i10-index
3
Publications
16
Co-authors
0
Contact
Publications
Resume (English only)
Academic Achievements
- Lightweight Gradient-Aware Upscaling of 3D Gaussian Splatting Images (Aug 2025): Introduces an upscaling technique tailored for 3DGS on lightweight GPUs, achieving higher rendering speeds and reduced artifacts.
- SGLDBench: A Benchmark Suite for Stress-Guided Lightweight 3D Designs (May 2025): Presents a comprehensive benchmark with six reference strategies and a multigrid elasticity solver for evaluating material layout in lightweight structural design.
- Application of 3D Gaussian Splatting for Cinematic Anatomy on Consumer Class Devices (Aug 2024): Enables interactive photorealistic anatomical visualization on consumer hardware using novel view synthesis and compression.
- A Compact and Efficient Neural Data Structure for Mutual Information Estimation in Large Timeseries (Jul 2024): Proposes TNMIFs to efficiently estimate non-linear dependencies in large time series with reduced computational overhead.
- Adaptive Sampling of 3D Spatial Correlations for Focus+Context Visualization (Jan 2024): Integrates adaptive correlation sampling into chord diagrams with hierarchical edge bundling for scalable ensemble visualization.
- Neural Fields for Interactive Visualization of Statistical Dependencies in 3D Simulation Ensembles (Sep 2023): Introduces Neural Dependence Fields (NDFs) to compactly represent and reconstruct non-linear statistical dependencies like mutual information.
- Visual analysis of model parameter sensitivities along warm conveyor belt trajectories using Met.3D (Aug 2023): Applies algorithmic differentiation and visual analytics to quantify uncertainty in weather model parameterizations.
- Efficient High-Quality Rendering of Ribbons and Twisted Lines (Sep 2022): Improves rendering of twisted ribbons in 3D to avoid disappearance and flickering under oblique viewing angles.
Co-authors