Browsing VMV: Vision, Modeling, and Visualization by Title

Now showing items 1-20 of 363

    • 3D Curve-Skeleton Extraction Algorithm Using a Pseudo-Normal Vector Field 

      Pantuwong, Natapon; Sugimoto, Masanori (The Eurographics Association, 2010)
      A curve skeleton is a line representation of a 3D object. It is useful in many applications, such as animation, shape matching or scientific analysis. The method described in this paper extracts a curve skeleton from the ...

    • 3D Face Reconstruction with Silhouette Constraints 

      Hu, Qiyang; Zwicker, Matthias; Favaro, Paolo (The Eurographics Association, 2016)
      In this paper we introduce silhouette constraints to improve the quality of unconstrained 3D face reconstruction. Previously, state of the art unconstrained 3D face reconstruction techniques relied solely on photometric ...

    • 3D Shape Cropping 

      Franco, Jean-Sebastien; Petit, Benjamin; Boyer, Edmond (The Eurographics Association, 2013)
      We introduce shape cropping as the segmentation of a bounding geometry of an object as observed by sensors with different modalities. Segmenting a bounding volume is a preliminary step in many multi-view vision applications ...

    • 3D Shape Matching based on Geodesic Distance Distributions 

      Martinek, Michael; Ferstl, Matthias; Grosso, Roberto (The Eurographics Association, 2012)
      In this work, we present a signature for 3D shapes which is based on the distribution of geodesic distances. Our shape descriptor is invariant with respect to rotation and scaling as well as articulations of the object. ...

    • Accurate Face Reconstruction through Anisotropic Fitting and Eye Correction 

      Achenbach, Jascha; Zell, Eduard; Botsch, Mario (The Eurographics Association, 2015)
      Fitting a facial template model to 3D-scanner data is a powerful technique for generating face avatars, in particular in the presence of noisy and incomplete measurements. Consequently, there are many approaches for the ...

    • Adaptive Image-space Stereo View Synthesis 

      Didyk, Piotr; Ritschel, Tobias; Eisemann, Elmar; Myszkowski, Karol; Seidel, Hans-Peter (The Eurographics Association, 2010)
      Stereo vision is becoming increasingly popular in feature films, visualization and interactive applications such as computer games. However, computation costs are doubled when rendering an individual image for each eye. ...

    • Adaptive Level-of-Precision for GPU-Rendering 

      Meyer, Quirin; Sussner, Gerd; Greiner, Günter; Stamminger, Marc (The Eurographics Association, 2011)
      Video memory is a valuable resource that has grown much slower than the rendering power of GPUs over the last years. Today, video memory is often the limiting factor in interactive high-quality rendering applications. The ...

    • Adaptive Sampling for Geometry-aware Reconstruction Filters 

      Bauszat, Pablo; Eisemann, Martin; Magnor, Marcus (The Eurographics Association, 2011)
      We present an adaptive sampling scheme for Monte-Carlo-based renderers with the aim to support geometryaware filtering techniques for interactive computation of global illumination. While sophisticated filtering techniques ...

    • Adaptive Surface Visualization of Vessels with Embedded Blood Flow Based on the Suggestive Contour Measure 

      Lawonn, Kai; Gasteiger, Rocco; Preim, Bernhard (The Eurographics Association, 2013)
      The investigation of hemodynamic information for the assessment of cardiovascular diseases (CVD) has increased in recent years. Improved flow measuring modalities and computational fluid dynamics (CFD) simulations are ...

    • Adaptive Treelet Meshes for Efficient Streak-Surface Visualization on the GPU 

      Fuchs, Raphael; Schindler, Benjamin; Carnecky, Robert; Waser, Jürgen; Yang, Yun; Peikert, Ronny (The Eurographics Association, 2012)
      We describe a novel adaptive mesh representation for streak-surfaces. The surface is represented as a mesh of small trees of initial depth zero (treelets). This mesh representation allows for efficient integration, refinement, ...

    • AFiT - Atrial Fibrillation Ablation Planning Tool 

      Brost, Alexander B.; Bourier, Felix; Kleinoeder, Andreas; Raab, Jens; Koch, Martin; Stamminger, Marc; Hornegger, Joachim; Strobel, Norbert; Kurzidim, Klaus (The Eurographics Association, 2011)
      The planning of cryo-balloon ablations for treatment of atrial fibrillation is a crucial task for a physician as he has to determine which size of the balloon catheter is required for isolation at each pulmonary vein. ...

    • Alignment and Reassembly of Broken Specimens for Creep Ductility Measurements 

      Knauthe, Volker; Kraus, Maurice; Buelow, Max von; Wirth, Tristan; Rak, Arne; Merth, Laurenz; Erbe, Alexander; Kontermann, Christian; Guthe, Stefan; Kuijper, Arjan; Fellner, Dieter W. (The Eurographics Association, 2022)
      Designing new types of heat-resistant steel components is an important and active research field in material science. It requires detailed knowledge of the inherent steel properties, especially concerning their creep ...

    • Analysis of Structural Dependencies for the Automatic Visual Inspection of Wire Ropes 

      Haase, Daniel; Wacker, Esther-Sabrina; Schukat-Talamazzini, Ernst Günter; Denzler, Joachim (The Eurographics Association, 2010)
      Automatic visual inspection is an arising field of research. Especially in security relevant applications, an automation of the inspection process would be a great benefit. For wire ropes, a first step is the acquisition ...

    • Analysis of Vortex Merge Graphs 

      Kasten, Jens; Zoufahl, Andre; Hege, Hans-Christian; Hotz, Ingrid (The Eurographics Association, 2012)
      We propose an analysis framework to investigate different flow quantities such as vorticity, &#955<sub>2</sub> or the acceleration magnitude along vortex merge graphs and within their regions of influence. The ...

    • Appearance Bending: A Perceptual Editing Paradigm for Data-Driven Material Models 

      Mylo, Marlon; Giesel, Martin; Zaidi, Qasim; Hullin, Matthias; Klein, Reinhard (The Eurographics Association, 2017)
      Data-driven representations of material appearance play an important role in a wide range of applications. Unlike with analytical models, however, the intuitive and efficient editing of tabulated reflectance data is still ...

    • Application of Tensor Approximation to Multiscale Volume Feature Representations 

      Suter, Susanne K.; Zollikofer, Christoph P. E.; Pajarola, Renato (The Eurographics Association, 2010)
      Advanced 3D microstructural analysis in natural sciences and engineering depends ever more on modern data acquisition and imaging technologies such as micro-computed or synchrotron tomography and interactive visualization. ...

    • Art-directable Stroke-based Rendering on Mobile Devices 

      Wagner, Ronja; Schulz, Sebastian; Reimann, Max; Semmo, Amir; Döllner, Jürgen; Trapp, Matthias (The Eurographics Association, 2023)
      This paper introduces an art-directable stroke-based rendering technique for transforming photos into painterly renditions on mobile devices. Unlike previous approaches that rely on time-consuming iterative computations ...

    • Artistic Composition for Painterly Rendering 

      Lindemeier, Thomas; Spicker, Marc; Deussen, Oliver (The Eurographics Association, 2016)
      We present a technique for painterly renderings that follows a decomposition of the canvas into a set of regions and layers (coarse to fine). The regions reflect the spatial arrangement of the composition and the order in ...

    • Assessment of Time-of-Flight Cameras for Short Camera-Object Distances 

      Stürmer, Michael; Becker, Guido; Hornegger, Joachim (The Eurographics Association, 2011)
      In this paper we have compared Time-of-Flight cameras of different vendors at object-camera distances of 500 mm, 1500 mm and 2500 mm. The aim was to find the highest possible precision at the distance of 500 mm, to estimate ...

    • Astray: A Performance-Portable Geodesic Ray Tracer 

      Demiralp, Ali Can; Krüger, Marcel; Chao, Chu; Kuhlen, Torsten W.; Gerrits, Tim (The Eurographics Association, 2022)
      Geodesic ray tracing is the numerical method to compute the motion of matter and radiation in spacetime. It enables visualization of the geometry of spacetime and is an important tool to study the gravitational fields in ...