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Ladislav Kavan
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- affiliation: University of Utah, USA
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2020 – today
- 2024
- [j47]Riddhish Bhalodia
, Shireen Y. Elhabian
DeepSSM: A blueprint for image-to-shape deep learning models. Medical Image Anal. 91: 103034 (2024) - [j46]Philipp Herholz, Tuur Stuyck, Ladislav Kavan:
A Mesh-based Simulation Framework using Automatic Code Generation. ACM Trans. Graph. 43(6): 215:1-215:17 (2024) - [c24]Ladislav Kavan
Compressed Skinning for Facial Blendshapes. SIGGRAPH (Conference Paper Track) 2024: 47 - [i15]Hsiao-Yu Chen, Egor Larionov, Ladislav Kavan, Gene Wei-Chin Lin, Doug Roble, Olga Sorkine-Hornung, Tuur Stuyck:
Dress Anyone : Automatic Physically-Based Garment Pattern Refitting. CoRR abs/2405.19148 (2024) - [i14]Ladislav Kavan, John Doublestein, Martin Prazák, Matthew Cioffi, Doug Roble:
Compressed Skinning for Facial Blendshapes. CoRR abs/2406.11597 (2024) - 2022
- [j45]Zhenyu Shu
3D Shape Segmentation Using Soft Density Peak Clustering and Semi-Supervised Learning. Comput. Aided Des. 145: 103181 (2022) - [j44]Zhenyu Shu
Detecting 3D Points of Interest Using Projective Neural Networks. IEEE Trans. Multim. 24: 1637-1650 (2022) - [j43]Jing Li
Soft Articulated Characters in Projective Dynamics. IEEE Trans. Vis. Comput. Graph. 28(2): 1385-1396 (2022) - [j42]Yi Xiao
Interactive Deep Colorization and its Application for Image Compression. IEEE Trans. Vis. Comput. Graph. 28(3): 1557-1572 (2022) - [c23]Hsiao-Yu Chen, Edith Tretschk, Tuur Stuyck, Petr Kadlecek, Ladislav Kavan, Etienne Vouga, Christoph Lassner:
Virtual Elastic Objects. CVPR 2022: 15806-15816 - [i13]Hsiao-Yu Chen, Edgar Tretschk, Tuur Stuyck, Petr Kadlecek, Ladislav Kavan, Etienne Vouga, Christoph Lassner:
Virtual Elastic Objects. CoRR abs/2201.04623 (2022) - 2021
- [j41]Yusuf Sahillioglu
Scale-Adaptive ICP. Graph. Model. 116: 101113 (2021) - [j40]Riddhish Bhalodia, Shireen Y. Elhabian, Ladislav Kavan, Ross T. Whitaker:
Leveraging unsupervised image registration for discovery of landmark shape descriptor. Medical Image Anal. 73: 102157 (2021) - [j39]He Chen, Hyojoon Park, Kutay Macit, Ladislav Kavan:
Capturing detailed deformations of moving human bodies. ACM Trans. Graph. 40(4): 85:1-85:18 (2021) - [j38]Sangeetha Grama Srinivasan, Qisi Wang, Junior Rojas, Gergely Klár
Learning active quasistatic physics-based models from data. ACM Trans. Graph. 40(4): 129:1-129:14 (2021) - [j37]Jing Li, Tiantian Liu, Ladislav Kavan, Baoquan Chen:
Interactive cutting and tearing in projective dynamics with progressive cholesky updates. ACM Trans. Graph. 40(6): 254:1-254:12 (2021) - [i12]Junior Rojas, Eftychios Sifakis, Ladislav Kavan:
Differentiable Implicit Soft-Body Physics. CoRR abs/2102.05791 (2021) - [i11]He Chen, Hyojoon Park, Kutay Macit, Ladislav Kavan:
Capturing Detailed Deformations of Moving Human Bodies. CoRR abs/2102.07343 (2021) - [i10]Riddhish Bhalodia, Shireen Y. Elhabian, Jadie Adams, Wenzheng Tao, Ladislav Kavan, Ross T. Whitaker:
DeepSSM: A Blueprint for Image-to-Shape Deep Learning Models. CoRR abs/2110.07152 (2021) - [i9]Riddhish Bhalodia, Shireen Y. Elhabian, Ladislav Kavan, Ross T. Whitaker:
Leveraging Unsupervised Image Registration for Discovery of Landmark Shape Descriptor. CoRR abs/2111.07009 (2021) - 2020
- [j36]Dimitar Dinev, Wenxian Guo
Solving for muscle blending using data. Comput. Graph. 92: 67-75 (2020) - [j35]Zhenyu Shu
Scribble-Based 3D Shape Segmentation via Weakly-Supervised Learning. IEEE Trans. Vis. Comput. Graph. 26(8): 2671-2682 (2020) - [c22]Riddhish Bhalodia, Ladislav Kavan, Ross T. Whitaker:
Self-supervised Discovery of Anatomical Shape Landmarks. MICCAI (4) 2020: 627-638 - [i8]Riddhish Bhalodia, Ladislav Kavan, Ross T. Whitaker:
Self-Supervised Discovery of Anatomical Shape Landmarks. CoRR abs/2006.07525 (2020) - [i7]Wenzheng Tao, Riddhish Bhalodia, Erin Anstadt, Ladislav Kavan, Ross T. Whitaker, Jesse A. Goldstein:
Unsupervised Shape Normality Metric for Severity Quantification. CoRR abs/2007.09307 (2020)
2010 – 2019
- 2019
- [j34]Petr Kadlecek
Building Accurate Physics-based Face Models from Data. Proc. ACM Comput. Graph. Interact. Tech. 2(2): 15:1-15:16 (2019) - [j33]Junior Rojas
Average Vector Field Integration for St. Venant-Kirchhoff Deformable Models. IEEE Trans. Vis. Comput. Graph. 25(8): 2529-2539 (2019) - [j32]Zhenyu Shu
Detecting 3D Points of Interest Using Multiple Features and Stacked Auto-encoder. IEEE Trans. Vis. Comput. Graph. 25(8): 2583-2596 (2019) - [j31]Wenwu Yang, Nathan Marshak, Daniel Sýkora, Srikumar Ramalingam, Ladislav Kavan:
Building anatomically realistic jaw kinematics model from data. Vis. Comput. 35(6-8): 1105-1118 (2019) - [c21]Riddhish Bhalodia, Shireen Y. Elhabian
A Cooperative Autoencoder for Population-Based Regularization of CNN Image Registration. MICCAI (2) 2019: 391-400 - [c20]Jing Li, Tiantian Liu, Ladislav Kavan:
Fast simulation of deformable characters with articulated skeletons in projective dynamics. Symposium on Computer Animation 2019: 1:1-1:10 - [i6]Riddhish Bhalodia, Shireen Y. Elhabian, Ladislav Kavan, Ross T. Whitaker:
CoopSubNet: Cooperating Subnetwork for Data-Driven Regularization of Deep Networks under Limited Training Budgets. CoRR abs/1906.05441 (2019) - [i5]Riddhish Bhalodia, Shireen Y. Elhabian, Ladislav Kavan, Ross T. Whitaker:
A Cooperative Autoencoder for Population-Based Regularization of CNN Image Registration. CoRR abs/1908.05825 (2019) - 2018
- [j30]Valentin Roussellet
Dynamic implicit muscles for character skinning. Comput. Graph. 77: 227-239 (2018) - [j29]Dimitar Dinev, Thabo Beeler, Derek Bradley, Moritz Bächer, Hongyi Xu, Ladislav Kavan:
User-Guided Lip Correction for Facial Performance Capture. Comput. Graph. Forum 37(8): 93-101 (2018) - [j28]David Pickup
An evaluation of canonical forms for non-rigid 3D shape retrieval. Graph. Model. 97: 17-29 (2018) - [j27]Dimitar Dinev
Stabilizing Integrators for Real-Time Physics. ACM Trans. Graph. 37(1): 9 (2018) - [j26]Dimitar Dinev, Tiantian Liu, Jing Li, Bernhard Thomaszewski
FEPR: fast energy projection for real-time simulation of deformable objects. ACM Trans. Graph. 37(4): 79 (2018) - [c19]Riddhish Bhalodia, Shireen Y. Elhabian
DeepSSM: A Deep Learning Framework for Statistical Shape Modeling from Raw Images. ShapeMI@MICCAI 2018: 244-257 - [c18]Marek Dvoroznák, Saman Sepehri Nejad, Ondrej Jamriska, Alec Jacobson, Ladislav Kavan, Daniel Sýkora:
Seamless reconstruction of part-based high-relief models from hand-drawn images. Expressive 2018: 5:1-5:9 - [c17]Jing Li, Tiantian Liu, Ladislav Kavan:
Laplacian Damping for Projective Dynamics. VRIPHYS 2018: 29-36 - [d1]Wenwu Yang, Nathan Marshak, Daniel Sýkora, Srikumar Ramalingam, Ladislav Kavan:
Jaw Motion and Jaw Kinematics Model. IEEE DataPort, 2018 - [i4]Wenwu Yang, Nathan Marshak, Daniel Sýkora, Srikumar Ramalingam, Ladislav Kavan:
Building Anatomically Realistic Jaw Kinematics Model from Data. CoRR abs/1805.05903 (2018) - [i3]Riddhish Bhalodia, Shireen Y. Elhabian, Ladislav Kavan, Ross T. Whitaker:
DeepSSM: A Deep Learning Framework for Statistical Shape Modeling from Raw Images. CoRR abs/1810.00111 (2018) - 2017
- [j25]Tiantian Liu, Sofien Bouaziz, Ladislav Kavan:
Quasi-Newton Methods for Real-Time Simulation of Hyperelastic Materials. ACM Trans. Graph. 36(3): 23:1-23:16 (2017) - [j24]Alexandru Eugen Ichim, Petr Kadlecek
Phace: physics-based face modeling and animation. ACM Trans. Graph. 36(4): 153:1-153:14 (2017) - [c16]Emily Whiting
Environment-Scale Fabrication: Replicating Outdoor Climbing Experiences. CHI 2017: 1794-1804 - 2016
- [j23]Zhenyu Shu, Shi-Qing Xin, Huixia Xu, Ladislav Kavan, Pengfei Wang, Ligang Liu:
3D model classification via Principal Thickness Images. Comput. Aided Des. 78: 199-208 (2016) - [j22]Tiantian Liu, Ming Gao, Lifeng Zhu, Eftychios Sifakis, Ladislav Kavan:
Fast and Robust Inversion-Free Shape Manipulation. Comput. Graph. Forum 35(2): 1-11 (2016) - [j21]Yusuf Sahillioglu
Detail-Preserving Mesh Unfolding for Nonrigid Shape Retrieval. ACM Trans. Graph. 35(3): 27:1-27:11 (2016) - [j20]Petr Kadlecek
Reconstructing personalized anatomical models for physics-based body animation. ACM Trans. Graph. 35(6): 213:1-213:13 (2016) - [c15]Alexandru Eugen Ichim, Ladislav Kavan, Merlin Nimier-David, Mark Pauly:
Building and animating user-specific volumetric face rigs. Symposium on Computer Animation 2016: 107-117 - [e2]Barbara Solenthaler, Matthias Teschner, Ladislav Kavan, Chris Wojtan:
Proceedings of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Zurich, Switzerland, July 11-13, 2016. Eurographics Association / ACM 2016, ISBN 978-3-905674-61-3 [contents] - [e1]Barbara Solenthaler, Matthias Teschner, Ladislav Kavan, Chris Wojtan:
Poster Proceedings of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation, Zurich, Switzerland, July 11-13, 2016. Eurographics Association / ACM 2016, ISBN 978-3-03868-020-8 [contents] - [i2]Tiantian Liu, Sofien Bouaziz, Ladislav Kavan:
Towards Real-time Simulation of Hyperelastic Materials. CoRR abs/1604.07378 (2016) - 2015
- [j19]Lifeng Zhu, Xiaoyan Hu, Ladislav Kavan:
Adaptable Anatomical Models for Realistic Bone Motion Reconstruction. Comput. Graph. Forum 34(2): 459-471 (2015) - [j18]Zhanpeng Huang, Ladislav Kavan, Weikai Li, Pan Hui, Guanghong Gong:
Reducing numerical dissipation in smoke simulation. Graph. Model. 78: 10-25 (2015) - [j17]Dan Gerszewski, Ladislav Kavan, Peter-Pike Sloan, Adam W. Bargteil:
Basis enrichment and solid-fluid coupling for model-reduced fluid simulation. Comput. Animat. Virtual Worlds 26(2): 109-117 (2015) - [j16]Yusuf Sahillioglu
Skuller: A volumetric shape registration algorithm for modeling skull deformities. Medical Image Anal. 23(1): 15-27 (2015) - [j15]Shunsuke Saito, Zi-Ye Zhou, Ladislav Kavan:
Computational bodybuilding: anatomically-based modeling of human bodies. ACM Trans. Graph. 34(4): 41:1-41:12 (2015) - [j14]Yu Wang, Alec Jacobson, Jernej Barbic, Ladislav Kavan:
Linear subspace design for real-time shape deformation. ACM Trans. Graph. 34(4): 57:1-57:11 (2015) - 2014
- [j13]Daniel Sýkora, Ladislav Kavan, Martin Cadík
Ink-and-ray: Bas-relief meshes for adding global illumination effects to hand-drawn characters. ACM Trans. Graph. 33(2): 16:1-16:15 (2014) - [j12]Sofien Bouaziz, Sebastian Martin, Tiantian Liu, Ladislav Kavan, Mark Pauly
Projective dynamics: fusing constraint projections for fast simulation. ACM Trans. Graph. 33(4): 154:1-154:11 (2014) - [c14]Rajsekhar Setaluri, Yu Wang, Nathan Mitchell, Ladislav Kavan, Eftychios Sifakis:
Fast Grid-Based Nonlinear Elasticity for 2D Deformations. Symposium on Computer Animation 2014: 67-76 - [c13]Yu Wang, Mubbasir Kapadia, Pengfei Huang, Ladislav Kavan, Norman I. Badler:
Sound localization and multi-modal steering for autonomous virtual agents. I3D 2014: 23-30 - [c12]Alec Jacobson, Zhigang Deng, Ladislav Kavan, John P. Lewis:
Skinning: real-time shape deformation. SIGGRAPH Courses 2014: 24:1 - [i1]Kenshi Takayama, Alec Jacobson, Ladislav Kavan, Olga Sorkine-Hornung:
Consistently Orienting Facets in Polygon Meshes by Minimizing the Dirichlet Energy of Generalized Winding Numbers. CoRR abs/1406.5431 (2014) - 2013
- [j11]Christian Schüller, Ladislav Kavan, Daniele Panozzo, Olga Sorkine-Hornung:
Locally Injective Mappings. Comput. Graph. Forum 32(5): 125-135 (2013) - [j10]Alec Jacobson, Ladislav Kavan, Olga Sorkine-Hornung:
Robust inside-outside segmentation using generalized winding numbers. ACM Trans. Graph. 32(4): 33:1-33:12 (2013) - [j9]Dicko Ali-Hamadi, Tiantian Liu, Benjamin Gilles, Ladislav Kavan, François Faure, Olivier Palombi, Marie-Paule Cani:
Anatomy transfer. ACM Trans. Graph. 32(6): 188:1-188:8 (2013) - [j8]Tiantian Liu, Adam W. Bargteil, James F. O'Brien
Fast simulation of mass-spring systems. ACM Trans. Graph. 32(6): 214:1-214:7 (2013) - [c11]Dan Gerszewski, Ladislav Kavan, Peter-Pike J. Sloan, Adam W. Bargteil:
Enhancements to Model-reduced Fluid Simulation. MIG 2013: 223-228 - [c10]Peter-Pike Sloan, Jason Tranchida, Hao Chen, Ladislav Kavan:
Ambient obscurance baking on the GPU. SIGGRAPH ASIA Technical Briefs 2013: 32:1-32:4 - 2012
- [j7]Alec Jacobson, Ilya Baran, Ladislav Kavan, Jovan Popovic, Olga Sorkine:
Fast automatic skinning transformations. ACM Trans. Graph. 31(4): 77:1-77:10 (2012) - [j6]Ladislav Kavan, Olga Sorkine:
Elasticity-inspired deformers for character articulation. ACM Trans. Graph. 31(6): 196:1-196:8 (2012) - 2011
- [j5]Ladislav Kavan, Adam W. Bargteil, Peter-Pike J. Sloan:
Least Squares Vertex Baking. Comput. Graph. Forum 30(4): 1319-1326 (2011) - [j4]Ladislav Kavan, Dan Gerszewski, Adam W. Bargteil, Peter-Pike J. Sloan:
Physics-inspired upsampling for cloth simulation in games. ACM Trans. Graph. 30(4): 93 (2011) - 2010
- [j3]Ladislav Kavan, Peter-Pike J. Sloan, Carol O'Sullivan
Fast and Efficient Skinning of Animated Meshes. Comput. Graph. Forum 29(2): 327-336 (2010) - [c9]Martin Prazák, Ladislav Kavan, Rachel McDonnell, Rachel Dobbyn, Carol O'Sullivan:
Moving crowds: a linear animation system for crowd simulation. SI3D 2010
2000 – 2009
- 2009
- [c8]Ladislav Kavan, Steven Collins, Carol O'Sullivan
Automatic linearization of nonlinear skinning. SI3D 2009: 49-56 - 2008
- [j2]Ladislav Kavan, Steven Collins, Jirí Zára
Geometric skinning with approximate dual quaternion blending. ACM Trans. Graph. 27(4): 105:1-105:23 (2008) - [c7]Ladislav Kavan, Simon Dobbyn, Steven Collins, Jirí Zára
Polypostors: 2D polygonal impostors for 3D crowds. SI3D 2008: 149-155 - 2007
- [c6]Ladislav Kavan, Steven Collins, Jirí Zára
Skinning with dual quaternions. SI3D 2007: 39-46 - [c5]Ladislav Kavan, Rachel McDonnell
Skinning arbitrary deformations. SI3D 2007: 53-60 - 2006
- [c4]Ladislav Kavan, Ivana Kolingerová, Jiri Zara:
Fast approximation of convex hull. ACST 2006: 101-104 - [c3]Simon Dobbyn, Rachel McDonnell, Ladislav Kavan, Steven Collins, Carol O'Sullivan:
Clothing the Masses: Real-Time Clothed Crowds With Variation. Eurographics (Short Presentations) 2006: 103-106 - [c2]Ladislav Kavan, Carol O'Sullivan
Efficient collision detection for spherical blend skinning. GRAPHITE 2006: 147-156 - 2005
- [j1]Ladislav Kavan, Jiri Zara
Fast Collision Detection for Skeletally DeformableModels. Comput. Graph. Forum 24(3): 363-372 (2005) - 2003
- [c1]Ladislav Kavan, Jiri Zara:
Real Time Skin Deformation with Bones Blending. WSCG 2003
Coauthor Index
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last updated on 2024-12-05 20:46 CET by the dblp team
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