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Balázs Csébfalvi
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2020 – today
- 2023
- [j19]Balázs Csébfalvi:
One Step Further Beyond Trilinear Interpolation and Central Differences: Triquadratic Reconstruction and its Analytic Derivatives at the Cost of One Additional Texture Fetch. Comput. Graph. Forum 42(2): 191-200 (2023)
2010 – 2019
- 2019
- [j18]Balázs Csébfalvi:
Beyond trilinear interpolation: higher quality for free. ACM Trans. Graph. 38(4): 56:1-56:8 (2019) - 2018
- [j17]Balázs Csébfalvi:
Fast Catmull-Rom Spline Interpolation for High-Quality Texture Sampling. Comput. Graph. Forum 37(2): 455-462 (2018) - [j16]Gergely Rácz, Balázs Csébfalvi:
Cosine-Weighted B-Spline Interpolation on the Face-Centered Cubic Lattice. Comput. Graph. Forum 37(3): 503-511 (2018) - [j15]Márton József Tóth, László Ruskó, Balázs Csébfalvi:
Automatic Recognition of Anatomical Regions in Computed Tomography Images. Period. Polytech. Electr. Eng. Comput. Sci. 62(4): 117-125 (2018) - [j14]Erik Agrell, Balázs Csébfalvi:
Multidimensional Sampling of Isotropically Bandlimited Signals. IEEE Signal Process. Lett. 25(3): 383-387 (2018) - 2017
- [i1]Erik Agrell, Balázs Csébfalvi:
Multidimensional Sampling of Isotropically Bandlimited Signals. CoRR abs/1703.00471 (2017) - 2016
- [j13]Márton József Tóth, László Ruskó, Balázs Csébfalvi:
Automatic recognition of anatomical regions in three-dimensional medical images. Comput. Biol. Medicine 76: 120-133 (2016) - [j12]Balázs Csébfalvi, Gergely Rácz:
Retailoring Box Splines to Lattices for Highly Isotropic Volume Representations. Comput. Graph. Forum 35(3): 411-420 (2016) - 2015
- [c26]Gergely Rácz, Balázs Csébfalvi:
Tomographic reconstruction on the body-centered cubic lattice. SCCG 2015: 23-29 - [c25]Viktor Vad, Balázs Csébfalvi, Peter Rautek, M. Eduard Gröller:
Reproducibility, Verification, and Validation of Experiments on the Marschner-Lobb Test Signal. EuroRV³@EuroVis 2015: 1-3 - 2014
- [j11]Viktor Vad, Balázs Csébfalvi, Peter Rautek, M. Eduard Gröller:
Towards an Unbiased Comparison of CC, BCC, and FCC Lattices in Terms of Prealiasing. Comput. Graph. Forum 33(3): 81-90 (2014) - [c24]Márton József Tóth, Balázs Csébfalvi:
Shape Transformation of Multidimensional Density Functions using Distribution Interpolation of the Radon Transforms. GRAPP 2014: 5-12 - [c23]Márton József Tóth, Balázs Csébfalvi:
Distribution Interpolation of the Radon Transforms for Shape Transformation of Gray-Scale Images and Volumes. VISIGRAPP (Selected Papers) 2014: 15-28 - [c22]Márton József Tóth, Tamas Blaskovics, László Ruskó, Gaspar Delso, Balázs Csébfalvi:
Automated Detection of Anatomical Regions in Magnetic Resonance Images. VMV 2014: 79-86 - 2013
- [j10]Balázs Csébfalvi:
Cosine-Weighted B-Spline Interpolation: A Fast and High-Quality Reconstruction Scheme for the Body-Centered Cubic Lattice. IEEE Trans. Vis. Comput. Graph. 19(9): 1455-1466 (2013) - 2012
- [c21]Balázs Hajagos, László Szécsi, Balázs Csébfalvi:
Fast silhouette and crease edge synthesis with geometry shaders. SCCG 2012: 71-76 - [c20]Viktor Vad, Balázs Csébfalvi, Moncef Gabbouj:
Calibration of the Marschner-Lobb Signal on CC, BCC, and FCC Lattices. EuroVis (Short Papers) 2012 - [c19]Balázs Csébfalvi, Balázs Tóth, Stefan Bruckner, M. Eduard Gröller:
Illumination-Driven Opacity Modulation for Expressive Volume Rendering. VMV 2012: 103-109 - 2011
- [j9]Balázs Domonkos, Balázs Csébfalvi:
Evaluation of the Linear Box-Spline Filter from Trilinear Texture Samples: A Feasibility Study. J. WSCG 19(2): 77-84 (2011) - 2010
- [j8]Balázs Csébfalvi:
An Evaluation of Prefiltered B-Spline Reconstruction for Quasi-Interpolation on the Body-Centered Cubic Lattice. IEEE Trans. Vis. Comput. Graph. 16(3): 499-512 (2010) - [c18]László Szirmay-Kalos, Balázs Tóth, Milán Magdics, Balázs Csébfalvi:
Efficient Free Path Sampling in Inhomogeneous Media. Eurographics (Posters) 2010 - [c17]Balázs Csébfalvi, Balázs Domonkos:
3D frequency-domain analysis of non-separable reconstruction schemes by using direct volume rendering. SCCG 2010: 51-60 - [c16]László Szécsi, László Szirmay-Kalos, Murat Kurt, Balázs Csébfalvi:
Adaptive sampling for environment mapping. SCCG 2010: 69-76 - [c15]Balázs Domonkos, Balázs Csébfalvi:
DC-Splines: Revisiting the Trilinear Interpolation on the Body-Centered Cubic Lattice. VMV 2010: 275-282
2000 – 2009
- 2009
- [j7]Balázs Csébfalvi, Balázs Domonkos:
Prefiltered Gradient Reconstruction for Volume Rendering. J. WSCG 17(1-3): 49-56 (2009) - [c14]Balázs Csébfalvi, Balázs Domonkos:
Interactively controlling the smoothing and postaliasing effects in volume visualization. SCCG 2009: 129-136 - [c13]Balázs Csébfalvi, Balázs Domonkos:
Frequency-Domain Upsampling on a Body-Centered Cubic Lattice for Efficient and High-Quality Volume Rendering. VMV 2009: 225-232 - 2008
- [j6]Balázs Csébfalvi:
BCC-Splines: Generalization of B-Splines for the Body-Centered Cubic Lattice. J. WSCG 16(1-3): 81-88 (2008) - [j5]Balázs Csébfalvi:
An Evaluation of Prefiltered Reconstruction Schemes for Volume Rendering. IEEE Trans. Vis. Comput. Graph. 14(2): 289-301 (2008) - [c12]Balázs Csébfalvi, Balázs Domonkos:
Pass-Band Optimal Reconstruction on the Body-Centered Cubic Lattice. VMV 2008: 71-80 - 2006
- [c11]Peter Rautek, Balázs Csébfalvi, Sören Grimm, Stefan Bruckner, M. Eduard Gröller:
D2VR: High-Quality Volume Rendering of Projection-based Volumetric Data. EuroVis 2006: 211-218 - 2005
- [c10]Balázs Csébfalvi:
Prefiltered Gaussian Reconstruction for High-Quality Rendering of Volumetric Data sampled on a Body-Centered Cubic Grid. IEEE Visualization 2005: 311-318 - 2004
- [c9]Balázs Csébfalvi, József Koloszár, Zsolt Tarján:
Vector Quantization for Feature-Preserving Volume Filtering. VMV 2004: 363-370 - [c8]Balázs Csébfalvi:
Interactive Transfer Function Control for Monte Carlo Volume Rendering. VolVis 2004: 33-38 - 2003
- [c7]Balázs Csébfalvi, László Szirmay-Kalos:
Monte Carlo Volume Rendering. IEEE Visualization 2003: 449-456 - 2002
- [c6]László Neumann, Balázs Csébfalvi, Ivan Viola, Matej Mlejnek, M. Eduard Gröller:
Feature-Preserving Volume Filtering. VisSym 2002: 105-114 - [c5]Armin Kanitsar, Thomas Theußl, Lukas Mroz, Milos Srámek, Anna Vilanova Bartrolí, Balázs Csébfalvi, Jirí Hladuvka, Dominik Fleischmann, Michael Knapp, Rainer Wegenkittl, Petr Felkel, Stefan Röttger, Stefan Guthe, Werner Purgathofer, M. Eduard Gröller:
Christmas Tree Case Study: Computed Tomography as a Tool for Mastering Complex Real World Objects with Applications in Computer Graphics. IEEE Visualization 2002: 489-492 - [c4]Balázs Csébfalvi, László Neumann, Armin Kanitsar, M. Eduard Gröller:
Smooth Shape-Based Interpolation using the Conjugate Gradient Method. VMV 2002: 123-130 - 2001
- [j4]Balázs Csébfalvi, Lukas Mroz, Helwig Hauser, Andreas König, M. Eduard Gröller:
Fast Visualization of Object Contours by Non-Photorealistic Volume Rendering. Comput. Graph. Forum 20(3): 452-460 (2001) - [c3]Balázs Csébfalvi, M. Eduard Gröller:
Interactive Volume Rendering based on a "Bubble Model". Graphics Interface 2001: 209-216 - 2000
- [j3]László Neumann, Balázs Csébfalvi, Andreas König, M. Eduard Gröller:
Gradient Estimation in Volume Data using 4D Linear Regression. Comput. Graph. Forum 19(3): 351-358 (2000) - [c2]Balázs Csébfalvi, Andreas König, M. Eduard Gröller:
Fast Surface Rendering of Volumetric Data. WSCG 2000
1990 – 1999
- 1999
- [j2]László Szirmay-Kalos, Balázs Csébfalvi, Werner Purgathofer:
Importance driven quasi-random walk solution of the rendering equation. Comput. Graph. 23(2): 203-211 (1999) - [c1]Balázs Csébfalvi:
Fast Volume Rotation using Binary Shear-Warp Factorization. VisSym 1999: 145-154 - 1997
- [j1]László Szirmay-Kalos, Tibor Fóris, László Neumann, Balázs Csébfalvi:
An Analysis of Quasi-Monte Carlo Integration Applied to the Transillumination Radiosity Method. Comput. Graph. Forum 16(3): 271-282 (1997)
Coauthor Index
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