Home » Timo Ropinski
Timo
Timo Ropinski
Professor in Computer Science
+46-11-36-3615
Scientific Visualization

Communities

Publications

YearTitle
2014 Continuous Levels-of-Detail and Visual Abstraction for Seamless Molecular Visualization
2014 Hybrid Data Visualization Based On Depth Complexity Histogram Analysis
2014 An interactive visualization system for urban search and rescue mission planning
2014 Quantitative Analysis of Knee Movement Patterns through Comparative Visualization
2014 A Survey of Volumetric Illumination Techniques for Interactive Volume Rendering
2014 The ultrasound visualization pipeline
2014 Verifying Volume Rendering Using Discretization Error Analysis
2013 Analyzing and Reducing DTI Tracking Uncertainty by Combining Deterministic and Stochastic Approaches
2013 Comparison of Volumetric Illumination Methods by Considering the Underlying Optical Models
2013 Feature Tracking in Time-Varying Volumetric Data through Scale Invariant Feature Transform
2013 Large-Scale Multiple Sequence Alignment Visualization through Gradient Vector Flow Analysis
2013 Seamless Visual Abstraction of Molecular Surfaces
2013 A Survey of Volumetric Illumination Techniques for Interactive Volume Rendering
2012 Coherency-Based Curve Compression for High-Order Finite Element Model Visualization
2012 GPU-Accelerated Direct Volume Rendering of Finite Element Data Sets
2012 Historygrams: Enabling Interactive Global Illumination in Direct Volume Rendering using Photon Mapping
2012 Interactive Volume Rendering with Volumetric Illumination
2012 Unified Boundary-Aware Texturing for Interactive Volume Rendering
2012 Unified Boundary-Aware Texturing for Interactive Volume Rendering
2011 Image Plane Sweep Volume Illumination
2011 Image Plane Sweep Volume Illumination

Projects

Year Title
2012 Interactive Scalable Visual Computing
2012 Morphology and electro-optical properties of materials in solar cell
2012 Volumetric Finite Element Visualization
2010 Efficient Methods for Volumetric Illumination
  Methods for High-Quality Illumination in Interactive Volume Rendering
  Visualization tool for electronic structure calculations