Stop the war!Остановите войну!
for scientists:
default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDKarol Myszkowski
Person information
- affiliation: Max Planck Institute for Informatics, Saarbrücken, Germany
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2022
[j86]Ugur Çogalan
, Mojtaba Bemana, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
Learning HDR video reconstruction for dual-exposure sensors with temporally-alternating exposures. Comput. Graph. 105: 57-72 (2022)- [j85]Chao Wang, Bin Chen, Hans-Peter Seidel, Karol Myszkowski, Ana Serrano:
Learning a self-supervised tone mapping operator via feature contrast masking loss. Comput. Graph. Forum 41(2): 71-84 (2022) - [j84]Vassillen Chizhov, Iliyan Georgiev, Karol Myszkowski, Gurprit Singh:
Perceptual Error Optimization for Monte Carlo Rendering. ACM Trans. Graph. 41(3): 26:1-26:17 (2022) - [j83]Krzysztof Wolski, Fangcheng Zhong, Karol Myszkowski, Rafal K. Mantiuk:
Dark stereo: improving depth perception under low luminance. ACM Trans. Graph. 41(4): 146:1-146:12 (2022) - [c68]Mojtaba Bemana, Karol Myszkowski, Jeppe Revall Frisvad, Hans-Peter Seidel, Tobias Ritschel:
Eikonal Fields for Refractive Novel-View Synthesis. SIGGRAPH (Conference Paper Track) 2022: 39:1-39:9 - [c67]Bin Chen, Michal Piovarci, Chao Wang, Hans-Peter Seidel, Piotr Didyk, Karol Myszkowski, Ana Serrano:
Gloss management for consistent reproduction of real and virtual objects. SIGGRAPH Asia 2022: 35:1-35:9 - [i13]Mojtaba Bemana, Karol Myszkowski, Jeppe Revall Frisvad, Hans-Peter Seidel, Tobias Ritschel:
Eikonal Fields for Refractive Novel-View Synthesis. CoRR abs/2202.00948 (2022) - [i12]Ugur Çogalan, Mojtaba Bemana, Hans-Peter Seidel, Karol Myszkowski:
Video frame interpolation for high dynamic range sequences captured with dual-exposure sensors. CoRR abs/2206.09485 (2022) - [i11]Chao Wang, Ana Serrano, Xingang Pan, Bin Chen, Hans-Peter Seidel, Christian Theobalt, Karol Myszkowski, Thomas Leimkuehler:
GlowGAN: Unsupervised Learning of HDR Images from LDR Images in the Wild. CoRR abs/2211.12352 (2022) - 2021
- [j82]Tobias Rittig, Denis Sumin, Vahid Babaei, Piotr Didyk, Alexey G. Voloboy, Alexander Wilkie, Bernd Bickel, Karol Myszkowski, Tim Weyrich, Jaroslav Krivánek:
Neural Acceleration of Scattering-Aware Color 3D Printing. Comput. Graph. Forum 40(2): 205-219 (2021) - [j81]Ana Serrano, Bin Chen, Chao Wang, Michal Piovarci, Hans-Peter Seidel, Piotr Didyk, Karol Myszkowski:
The effect of shape and illumination on material perception: model and applications. ACM Trans. Graph. 40(4): 125:1-125:16 (2021) - [j80]Akshay Jindal, Krzysztof Wolski, Karol Myszkowski, Rafal K. Mantiuk:
Perceptual model for adaptive local shading and refresh rate. ACM Trans. Graph. 40(6): 281:1-281:18 (2021) - [j79]Bin Chen, Chao Wang, Michal Piovarci, Hans-Peter Seidel, Piotr Didyk, Karol Myszkowski, Ana Serrano:
The effect of geometry and illumination on appearance perception of different material categories. Vis. Comput. 37(12): 2975-2987 (2021) - [i10]Luca Surace, Marek Wernikowski, Okan Tarhan Tursun, Karol Myszkowski, Radoslaw Mantiuk, Piotr Didyk:
Learning Foveated Reconstruction to Preserve Perceived Image Statistics. CoRR abs/2108.03499 (2021) - [i9]Chao Wang, Bin Chen, Hans-Peter Seidel, Karol Myszkowski, Ana Serrano:
Learning a self-supervised tone mapping operator via feature contrast masking loss. CoRR abs/2110.09866 (2021) - 2020
- [j78]Xin Tong, Karol Myszkowski, Jin Huang:
Foreword to the special section on the international conference on computer-aided design and computer graphics (CAD/Graphics) 2019. Comput. Graph. 86: 5- (2020) - [j77]Mojtaba Bemana, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
X-Fields: implicit neural view-, light- and time-image interpolation. ACM Trans. Graph. 39(6): 257:1-257:15 (2020) - [j76]Ana Serrano, Daniel Martin, Diego Gutierrez, Karol Myszkowski, Belén Masiá:
Imperceptible manipulation of lateral camera motion for improved virtual reality applications. ACM Trans. Graph. 39(6): 267:1-267:14 (2020) - [c66]David Dunn, Okan Tarhan Tursun, Hyeonseung Yu, Piotr Didyk, Karol Myszkowski, Henry Fuchs:
Stimulating the Human Visual System Beyond Real World Performance in Future Augmented Reality Displays. ISMAR 2020: 90-100 - [i8]Mojtaba Bemana, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
X-Fields: Implicit Neural View-, Light- and Time-Image Interpolation. CoRR abs/2010.00450 (2020) - [i7]Vassillen Chizhov, Iliyan Georgiev, Karol Myszkowski, Gurprit Singh:
Perceptual error optimization for Monte Carlo rendering. CoRR abs/2012.02344 (2020) - [i6]Ugur Çogalan, Mojtaba Bemana, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
HDR Denoising and Deblurring by Learning Spatio-temporal Distortion Models. CoRR abs/2012.12009 (2020)
2010 – 2019
- 2019
- [j75]Mojtaba Bemana, Joachim Keinert, Karol Myszkowski, Michel Bätz, Matthias Ziegler, Hans-Peter Seidel, Tobias Ritschel:
Learning to Predict Image-based Rendering Artifacts with Respect to a Hidden Reference Image. Comput. Graph. Forum 38(7): 579-589 (2019) - [j74]Krzysztof Wolski, Daniele Giunchi, Shin-ichi Kinuwaki, Piotr Didyk, Karol Myszkowski, Anthony Steed, Rafal Mantiuk:
Selecting texture resolution using a task-specific visibility metric. Comput. Graph. Forum 38(7): 685-696 (2019) - [j73]Okan Tarhan Tursun, Elena Arabadzhiyska-Koleva, Marek Wernikowski, Radoslaw Mantiuk, Hans-Peter Seidel, Karol Myszkowski, Piotr Didyk:
Luminance-contrast-aware foveated rendering. ACM Trans. Graph. 38(4): 98:1-98:14 (2019) - [j72]Denis Sumin, Tobias Rittig, Vahid Babaei, Thomas Nindel, Alexander Wilkie, Piotr Didyk, Bernd Bickel, Jaroslav Krivánek, Karol Myszkowski, Tim Weyrich:
Geometry-aware scattering compensation for 3D printing. ACM Trans. Graph. 38(4): 111:1-111:14 (2019) - [j71]Thomas Leimkühler, Gurprit Singh, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
Deep point correlation design. ACM Trans. Graph. 38(6): 226:1-226:17 (2019) - [j70]Hyeonseung Yu, Mojtaba Bemana, Marek Wernikowski, Michal Chwesiuk, Okan Tarhan Tursun, Gurprit Singh, Karol Myszkowski, Radoslaw Mantiuk, Hans-Peter Seidel, Piotr Didyk:
A Perception-driven Hybrid Decomposition for Multi-layer Accommodative Displays. IEEE Trans. Vis. Comput. Graph. 25(5): 1940-1950 (2019) - [c65]Sumit Shekhar, Amir Semmo, Matthias Trapp, Okan Tarhan Tursun, Sebastian Pasewaldt, Karol Myszkowski, Jürgen Döllner:
Consistent Filtering of Videos and Dense Light-Fields Without Optic-Flow. VMV 2019: 125-134 - [i5]Mojtaba Bemana, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
Neural View-Interpolation for Sparse LightField Video. CoRR abs/1910.13921 (2019) - 2018
- [j69]Shida Beigpour, Sumit Shekhar, Mohsen Mansouryar, Karol Myszkowski, Hans-Peter Seidel:
Light-Field Appearance Editing based on Intrinsic Decomposition. J. Percept. Imaging 1: 10502-1-10502-15(15) (2018) - [j68]Krzysztof Wolski, Daniele Giunchi, Nanyang Ye, Piotr Didyk, Karol Myszkowski, Radoslaw Mantiuk, Hans-Peter Seidel, Anthony Steed, Rafal K. Mantiuk:
Dataset and Metrics for Predicting Local Visible Differences. ACM Trans. Graph. 37(5): 172 (2018) - [j67]Thomas Leimkühler, Petr Kellnhofer, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Perceptual Real-Time 2D-to-3D Conversion Using Cue Fusion. IEEE Trans. Vis. Comput. Graph. 24(6): 2037-2050 (2018) - [c64]Sumit Shekhar, Shida Beigpour, Matthias Ziegler, Michal Chwesiuk, Dawid Palen, Karol Myszkowski, Joachim Keinert, Radoslaw Mantiuk, Piotr Didyk:
Light-Field Intrinsic Dataset. BMVC 2018: 120 - [c63]Karol Myszkowski, Okan Tarhan Tursun, Petr Kellnhofer, Krzysztof Templin, Elena Arabadzhiyska, Piotr Didyk, Hans-Peter Seidel:
Perceptual Display: Apparent Enhancement of Scene Detail and Depth. HVEI 2018: 1-10 - [i4]Ana Serrano, Diego Gutierrez, Karol Myszkowski, Hans-Peter Seidel, Belén Masiá:
An intuitive control space for material appearance. CoRR abs/1806.04950 (2018) - [i3]Thomas Leimkühler, Gurprit Singh, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
End-to-end Sampling Patterns. CoRR abs/1806.06710 (2018) - [i2]Mojtaba Bemana, Karol Myszkowski, Hans-Peter Seidel, Tobias Ritschel:
Deep-learning to Predict Perceived Differences to a Hidden Reference Image. CoRR abs/1812.02552 (2018) - 2017
- [j66]Martin Weier, Michael Stengel, Thorsten Roth, Piotr Didyk, Elmar Eisemann, Martin Eisemann, Steve Grogorick, André Hinkenjann, Ernst Kruijff, Marcus A. Magnor, Karol Myszkowski, Philipp Slusallek:
Perception-driven Accelerated Rendering. Comput. Graph. Forum 36(2): 611-643 (2017) - [j65]Elena Arabadzhiyska, Okan Tarhan Tursun, Karol Myszkowski, Hans-Peter Seidel, Piotr Didyk:
Saccade landing position prediction for gaze-contingent rendering. ACM Trans. Graph. 36(4): 50:1-50:12 (2017) - [j64]Oskar Elek, Denis Sumin, Ran Zhang, Tim Weyrich, Karol Myszkowski, Bernd Bickel, Alexander Wilkie, Jaroslav Krivánek:
Scattering-aware texture reproduction for 3D printing. ACM Trans. Graph. 36(6): 241:1-241:15 (2017) - [j63]David Dunn, Cary Tippets, Kent Torell, Petr Kellnhofer, Kaan Aksit, Piotr Didyk, Karol Myszkowski, David Luebke, Henry Fuchs:
Wide Field Of View Varifocal Near-Eye Display Using See-Through Deformable Membrane Mirrors. IEEE Trans. Vis. Comput. Graph. 23(4): 1322-1331 (2017) - [c62]Vamsi Kiran Adhikarla, Marek Vinkler, Denis Sumin, Rafal K. Mantiuk, Karol Myszkowski, Hans-Peter Seidel, Piotr Didyk:
Towards a Quality Metric for Dense Light Fields. CVPR 2017: 3720-3729 - [c61]David Dunn, Cary Tippets, Kent Torell, Henry Fuchs, Petr Kellnhofer, Karol Myszkowski, Piotr Didyk, Kaan Aksit, David Luebke:
Membrane AR: varifocal, wide field of view augmented reality display from deformable membranes. SIGGRAPH Emerging Technologies 2017: 15:1-15:2 - [i1]Vamsi Kiran Adhikarla, Marek Vinkler, Denis Sumin, Rafal K. Mantiuk, Karol Myszkowski, Hans-Peter Seidel, Piotr Didyk:
Towards a quality metric for dense light fields. CoRR abs/1704.07576 (2017) - 2016
- [j62]Vlastimil Havran, Jirí Filip, Karol Myszkowski:
Perceptually Motivated BRDF Comparison using Single Image. Comput. Graph. Forum 35(4): 1-12 (2016) - [j61]Lukasz Dabala, Matthias Ziegler, Piotr Didyk, Frederik Zilly, Joachim Keinert, Karol Myszkowski, Hans-Peter Seidel, Przemyslaw Rokita, Tobias Ritschel:
Efficient Multi-image Correspondences for On-line Light Field Video Processing. Comput. Graph. Forum 35(7): 401-410 (2016) - [j60]Petr Kellnhofer, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Transformation-aware perceptual image metric. J. Electronic Imaging 25(5): 053014 (2016) - [j59]Krzysztof Templin, Piotr Didyk, Karol Myszkowski, Hans-Peter Seidel:
Emulating displays with continuously varying frame rates. ACM Trans. Graph. 35(4): 67:1-67:11 (2016) - [j58]Petr Kellnhofer, Piotr Didyk, Karol Myszkowski, Mohamed Hefeeda, Hans-Peter Seidel, Wojciech Matusik:
GazeStereo3D: seamless disparity manipulations. ACM Trans. Graph. 35(4): 68:1-68:13 (2016) - [j57]Petr Kellnhofer, Piotr Didyk, Tobias Ritschel, Belén Masiá, Karol Myszkowski, Hans-Peter Seidel:
Motion parallax in stereo 3D: model and applications. ACM Trans. Graph. 35(6): 176:1-176:12 (2016) - [j56]Ana Serrano, Diego Gutierrez, Karol Myszkowski, Hans-Peter Seidel, Belén Masiá:
An intuitive control space for material appearance. ACM Trans. Graph. 35(6): 186:1-186:12 (2016) - [c60]Thomas Leimkühler, Petr Kellnhofer, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Perceptual Real-time 2D-to-3D Conversion Using Cue Fusion. Graphics Interface 2016: 5-12 - [c59]Jirí Filip, Vlastimil Havran, Karol Myszkowski:
Gaze Analysis of BRDF Distortions. MAM@EGSR 2016: 23-26 - [c58]Ana Serrano, Diego Gutierrez, Karol Myszkowski, Hans-Peter Seidel, Belén Masiá:
Intuitive editing of material appearance. SIGGRAPH Posters 2016: 63:1-63:2 - [c57]Yulia Gryaditskaya, Belén Masiá, Piotr Didyk, Karol Myszkowski, Hans-Peter Seidel:
Gloss Editing in Light Fields. VMV 2016 - 2015
- [j55]Sami Arpa, Tobias Ritschel, Karol Myszkowski, Tolga K. Çapin, Hans-Peter Seidel:
Purkinje Images: Conveying Different Content for Different Luminance Adaptations in a Single Image. Comput. Graph. Forum 34(1): 116-126 (2015) - [j54]Yulia Gryaditskaya, Tania Pouli, Erik Reinhard, Karol Myszkowski, Hans-Peter Seidel:
Motion Aware Exposure Bracketing for HDR Video. Comput. Graph. Forum 34(4): 119-130 (2015) - [j53]Petr Kellnhofer, Tobias Ritschel, Karol Myszkowski, Elmar Eisemann, Hans-Peter Seidel:
Modeling Luminance Perception at Absolute Threshold. Comput. Graph. Forum 34(4): 155-164 (2015) - [j52]Peter Vangorp, Karol Myszkowski, Erich W. Graf, Rafal K. Mantiuk:
A model of local adaptation. ACM Trans. Graph. 34(6): 166:1-166:13 (2015) - [c56]Petr Kellnhofer, Thomas Leimkühler, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
What makes 2D-to-3D stereo conversion perceptually plausible? SAP 2015: 59-66 - [c55]Petr Kellnhofer, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
A transformation-aware perceptual image metric. Human Vision and Electronic Imaging 2015: 939408 - 2014
- [j51]Lukasz Dabala, Petr Kellnhofer, Tobias Ritschel, Piotr Didyk, Krzysztof Templin, Karol Myszkowski, Przemyslaw Rokita, Hans-Peter Seidel:
Manipulating refractive and reflective binocular disparity. Comput. Graph. Forum 33(2): 53-62 (2014) - [j50]Dawid Pajak, Robert Herzog, Radoslaw Mantiuk, Piotr Didyk, Elmar Eisemann, Karol Myszkowski, Kari Pulli:
Perceptual depth compression for stereo applications. Comput. Graph. Forum 33(2): 195-204 (2014) - [j49]Krzysztof Templin, Piotr Didyk, Karol Myszkowski, Hans-Peter Seidel:
Perceptually-motivated Stereoscopic Film Grain. Comput. Graph. Forum 33(7): 349-358 (2014) - [j48]Petr Kellnhofer, Tobias Ritschel, Peter Vangorp, Karol Myszkowski, Hans-Peter Seidel:
Stereo Day-for-Night: Retargeting Disparity for Scotopic Vision. ACM Trans. Appl. Percept. 11(3): 15:1-15:17 (2014) - [j47]Krzysztof Templin, Piotr Didyk, Karol Myszkowski, Mohamed Hefeeda, Hans-Peter Seidel, Wojciech Matusik:
Modeling and optimizing eye vergence response to stereoscopic cuts. ACM Trans. Graph. 33(4): 145:1-145:8 (2014) - [c54]Peter Vangorp, Rafal K. Mantiuk, Bartosz Bazyluk, Karol Myszkowski, Radoslaw Mantiuk, Simon J. Watt, Hans-Peter Seidel:
Depth from HDR: depth induction or increased realism? SAP 2014: 71-78 - [e6]Nicolas Holzschuch, Karol Myszkowski:
35th Annual Conference of the European Association for Computer Graphics, Eurographics 2014 - Tutorials, Strasbourg, France, April 7-11, 2014. Eurographics Association 2014 [contents] - 2013
- [j46]Petr Kellnhofer, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Optimizing Disparity for Motion in Depth. Comput. Graph. Forum 32(4): 143-152 (2013) - [j45]Martin Cadík, Robert Herzog, Rafal Mantiuk, Radoslaw Mantiuk, Karol Myszkowski, Hans-Peter Seidel:
Learning to Predict Localized Distortions in Rendered Images. Comput. Graph. Forum 32(7): 401-410 (2013) - [e5]Diego Gutierrez, Karol Myszkowski:
34th Annual Conference of the European Association for Computer Graphics, Eurographics 2013 - Tutorials, Girona, Spain, May 6-10, 2013. Eurographics Association 2013 [contents] - 2012
- [j44]Chuong H. Nguyen, Tobias Ritschel, Karol Myszkowski, Elmar Eisemann, Hans-Peter Seidel:
3D Material Style Transfer. Comput. Graph. Forum 31(2pt2): 431-438 (2012) - [j43]Robert Herzog, Martin Cadík, Tunç Ozan Aydin, Kwang In Kim, Karol Myszkowski, Hans-Peter Seidel:
NoRM: No-Reference Image Quality Metric for Realistic Image Synthesis. Comput. Graph. Forum 31(2pt3): 545-554 (2012) - [j42]Krzysztof Templin, Piotr Didyk, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Highlight microdisparity for improved gloss depiction. ACM Trans. Graph. 31(4): 92:1-92:5 (2012) - [j41]Martin Cadík, Robert Herzog, Rafal Mantiuk, Karol Myszkowski, Hans-Peter Seidel:
New measurements reveal weaknesses of image quality metrics in evaluating graphics artifacts. ACM Trans. Graph. 31(6): 147:1-147:10 (2012) - [j40]Piotr Didyk, Tobias Ritschel, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel, Wojciech Matusik:
A luminance-contrast-aware disparity model and applications. ACM Trans. Graph. 31(6): 184:1-184:10 (2012) - [c53]Francesco Banterle, Alessandro Artusi, Tunç Ozan Aydin, Piotr Didyk, Elmar Eisemann, Diego Gutierrez, Rafal Mantiuk, Karol Myszkowski, Tobias Ritschel:
Mapping Images to Target Devices: Spatial, Temporal, Stereo, Tone, and Color. Eurographics (Tutorials) 2012 - [c52]Piotr Didyk, Tobias Ritschel, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel:
Apparent stereo: the Cornsweet illusion can enhance perceived depth. Human Vision and Electronic Imaging 2012: 82910N - [c51]Tobias Ritschel, Krzysztof Templin, Karol Myszkowski, Hans-Peter Seidel:
Virtual passepartouts. NPAR@Expressive 2012: 57-63 - 2011
- [j39]Dawid Pajak, Robert Herzog, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel:
Scalable Remote Rendering with Depth and Motion-flow Augmented Streaming. Comput. Graph. Forum 30(2): 415-424 (2011) - [j38]Piotr Didyk, Tobias Ritschel, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel:
A perceptual model for disparity. ACM Trans. Graph. 30(4): 96 (2011) - [c50]Martin Cadík, Tunç Ozan Aydin, Karol Myszkowski, Hans-Peter Seidel:
On evaluation of video quality metrics: an HDR dataset for computer graphics applications. Human Vision and Electronic Imaging 2011: 78650R - [c49]Krzysztof Templin, Piotr Didyk, Tobias Ritschel, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel:
Apparent resolution enhancement for animations. SCC 2011: 57-64 - [c48]Francesco Banterle, Alessandro Artusi, Tunç Ozan Aydin, Piotr Didyk, Elmar Eisemann, Diego Gutierrez, Rafal Mantiuk, Karol Myszkowski:
Multidimensional image retargeting. SIGGRAPH Asia Courses 2011: 15:1-15:612 - 2010
- [j37]Vlastimil Havran, Jirí Filip, Karol Myszkowski:
Bidirectional Texture Function Compression Based on Multi-Level Vector Quantization. Comput. Graph. Forum 29(1): 175-190 (2010) - [j36]Piotr Didyk, Elmar Eisemann, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Perceptually-motivated Real-time Temporal Upsampling of 3D Content for High-refresh-rate Displays. Comput. Graph. Forum 29(2): 713-722 (2010) - [j35]Tunç Ozan Aydin, Martin Cadík, Karol Myszkowski, Hans-Peter Seidel:
Visually significant edges. ACM Trans. Appl. Percept. 7(4): 27:1-27:15 (2010) - [j34]Piotr Didyk, Elmar Eisemann, Tobias Ritschel, Karol Myszkowski, Hans-Peter Seidel:
Apparent display resolution enhancement for moving images. ACM Trans. Graph. 29(4): 113:1-113:8 (2010) - [j33]Tunç Ozan Aydin, Martin Cadík, Karol Myszkowski, Hans-Peter Seidel:
Video quality assessment for computer graphics applications. ACM Trans. Graph. 29(6): 161 (2010) - [j32]Dawid Pajak, Martin Cadík, Tunç Ozan Aydin, Makoto Okabe, Karol Myszkowski, Hans-Peter Seidel:
Contrast prescription for multiscale image editing. Vis. Comput. 26(6-8): 739-748 (2010) - [c47]Dawid Pajak, Martin Cadík, Tunç Ozan Aydin, Karol Myszkowski, Hans-Peter Seidel:
Visual maladaptation in contrast domain. Human Vision and Electronic Imaging 2010: 752710 - [c46]Robert Herzog, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel:
Spatio-temporal upsampling on the GPU. SI3D 2010: 91-98 - [c45]Piotr Didyk, Tobias Ritschel, Elmar Eisemann, Karol Myszkowski, Hans-Peter Seidel:
Adaptive Image-space Stereo View Synthesis. VMV 2010: 299-306
2000 – 2009
- 2009
- [j31]Tunç Ozan Aydin, Karol Myszkowski, Hans-Peter Seidel:
Predicting Display Visibility Under Dynamically Changing Lighting Conditions. Comput. Graph. Forum 28(2): 173-182 (2009) - [j30]Tobias Ritschel, Matthias Ihrke, Jeppe Revall Frisvad, Joris Coppens, Karol Myszkowski, Hans-Peter Seidel:
Temporal Glare: Real-Time Dynamic Simulation of the Scattering in the Human Eye. Comput. Graph. Forum 28(2): 183-192 (2009) - [j29]Robert Herzog, Karol Myszkowski, Hans-Peter Seidel:
Anisotropic Radiance-Cache Splatting for Efficiently Computing High-Quality Global Illumination with Lightcuts. Comput. Graph. Forum 28(2): 259-268 (2009) - [j28]Francesco Banterle, Kurt Debattista, Alessandro Artusi, Sumanta N. Pattanaik, Karol Myszkowski, Patrick Ledda, Alan Chalmers:
High Dynamic Range Imaging and Low Dynamic Range Expansion for Generating HDR Content. Comput. Graph. Forum 28(8): 2343-2367 (2009) - [j27]Sarah H. Creem-Regehr, Karol Myszkowski:
Guest editorial. ACM Trans. Appl. Percept. 6(3): 13:1-13:2 (2009) - [c44]Francesco Banterle, Kurt Debattista, Alessandro Artusi, Sumanta N. Pattanaik, Karol Myszkowski, Patrick Ledda, Marina Bloj, Alan Chalmers:
High Dynamic Range Imaging and Low Dynamic Range Expansion for Generating HDR Content. Eurographics (State of the Art Reports) 2009: 17-44 - [c43]Matthias Ihrke, Tobias Ritschel, Kaleigh Smith, Thorsten Grosch, Karol Myszkowski, Hans-Peter Seidel:
A perceptual evaluation of 3D unsharp masking. Human Vision and Electronic Imaging 2009: 72400 - 2008
- [b1]Karol Myszkowski, Rafal Mantiuk, Grzegorz Krawczyk:
High Dynamic Range Video. Synthesis Lectures on Computer Graphics and Animation, Morgan & Claypool Publishers 2008 - [j26]Robert Herzog, Shin-ichi Kinuwaki, Karol Myszkowski, Hans-Peter Seidel:
Render2MPEG: A Perception-based Framework Towards Integrating Rendering and Video Compression. Comput. Graph. Forum 27(2): 183-192 (2008) - [j25]Kaleigh Smith, Pierre-Edouard Landes, Joëlle Thollot, Karol Myszkowski:
Apparent Greyscale: A Simple and Fast Conversion to Perceptually Accurate Images and Video. Comput. Graph. Forum 27(2): 193-200 (2008) - [j24]Tunç Ozan Aydin, Rafal Mantiuk, Karol Myszkowski, Hans-Peter Seidel:
Dynamic range independent image quality assessment. ACM Trans. Graph. 27(3): 69 (2008) - [j23]Tobias Ritschel, Kaleigh Smith, Matthias Ihrke, Thorsten Grosch, Karol Myszkowski, Hans-Peter Seidel:
3D unsharp masking for scene coherent enhancement. ACM Trans. Graph. 27(3): 90 (2008) - [c42]Akiko Yoshida, Grzegorz Krawczyk, Karol Myszkowski, Hans-Peter Seidel:
Perception-based contrast enhancement model for complex images in high dynamic range. Human Vision and Electronic Imaging 2008: 68060C - [c41]Radoslaw Mantiuk, Dorota Zdrojewska, Anna M. Tomaszewska, Rafal Mantiuk, Karol Myszkowski:
Selected problems of high dynamic range video compression and GPU-based contrast domain tone mapping. SCCG 2008: 7-14 - [e4]Sarah H. Creem-Regehr, Karol Myszkowski:
Proceedings of the 5th Symposium on Applied Perception in Graphics and Visualization, APGV 2008, Los Angeles, California, USA, August 9-10, 2008. ACM International Conference Proceeding Series, ACM 2008, ISBN 978-1-59593-981-4 [contents] - [e3]