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Theodore Kim
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2020 – today
- 2024
- [j36]Daniel H. Pak, Minliang Liu, Theodore Kim, Liang Liang, Andrés Caballero, John A. Onofrey, Shawn S. Ahn, Yilin Xu, Raymond McKay, Wei Sun, Rudolph L. Gleason, James S. Duncan:
Patient-Specific Heart Geometry Modeling for Solid Biomechanics Using Deep Learning. IEEE Trans. Medical Imaging 43(1): 203-215 (2024) - [c25]Theodore Kim, Yoehan Oh, Jacinda Tran:
The Life and Legacy of Bui Tuong Phong. SIGGRAPH Talks 2024: 8 - [c24]Jean Jouve, Victor Romero, Rahul Narain, Laurence Boissieux, Theodore Kim, Florence Bertails-Descoubes:
Modelling a Feather as a Strongly Anisotropic Elastic Shell. SIGGRAPH (Conference Paper Track) 2024: 36 - [c23]Alexa L. Schor, Theodore Kim:
Into the Portal: Directable Fractal Self-Similarity. SIGGRAPH (Conference Paper Track) 2024: 57 - [i6]Daniel H. Pak, Minliang Liu, Theodore Kim, Caglar Ozturk, Raymond McKay, Ellen T. Roche, Rudolph L. Gleason, James S. Duncan:
Robust automated calcification meshing for biomechanical cardiac digital twins. CoRR abs/2403.04998 (2024) - [i5]Yoehan Oh, Jacinda Tran, Theodore Kim:
The Life and Legacy of Bui Tuong Phong. CoRR abs/2404.14376 (2024) - 2023
- [j35]Alexa L. Schor, Theodore Kim:
A Shape Modulus for Fractal Geometry Generation. Comput. Graph. Forum 42(5): i-viii (2023) - [j34]Haomiao Wu, Theodore Kim:
An Eigenanalysis of Angle-Based Deformation Energies. Proc. ACM Comput. Graph. Interact. Tech. 6(3): 40:1-40:19 (2023) - [j33]Alvin Shi, Theodore Kim:
A Unified Analysis of Penalty-Based Collision Energies. Proc. ACM Comput. Graph. Interact. Tech. 6(3): 41:1-41:19 (2023) - [j32]Alvin Shi, Haomiao Wu, Jarred Parr, A. M. Darke, Theodore Kim:
Lifted Curls: A Model for Tightly Coiled Hair Simulation. Proc. ACM Comput. Graph. Interact. Tech. 6(3): 42:1-42:19 (2023) - [j31]Roman Poya, Rogelio Ortigosa, Theodore Kim:
Geometric Optimisation Via Spectral Shifting. ACM Trans. Graph. 42(3): 29:1-29:15 (2023) - 2022
- [c22]Theodore Kim, David Eberle:
Dynamic deformables: implementation and production practicalities (now with code!). SIGGRAPH Courses 2022: 7:1-7:259 - [i4]Nicholas J. Weidner, Theodore Kim, Shinjiro Sueda:
Condensation Jacobian with Adaptivity. CoRR abs/2202.02390 (2022) - [i3]Ana Dodik, Silvia Sellán, Theodore Kim, Amanda Phillips:
Sex and Gender in the Computer Graphics Research Literature. CoRR abs/2206.00480 (2022) - 2021
- [j30]Syuhei Sato, Yoshinori Dobashi, Theodore Kim:
Stream-guided smoke simulations. ACM Trans. Graph. 40(4): 161:1-161:7 (2021) - [j29]Qiaodong Cui, Timothy R. Langlois, Pradeep Sen, Theodore Kim:
Spiral-spectral fluid simulation. ACM Trans. Graph. 40(6): 202:1-202:16 (2021) - [c21]Daniel H. Pak, Minliang Liu, Theodore Kim, Liang Liang, Raymond McKay, Wei Sun, James S. Duncan:
Distortion Energy for Deep Learning-Based Volumetric Finite Element Mesh Generation for Aortic Valves. MICCAI (6) 2021: 485-494 - [c20]Bethany Witemeyer, Nicholas J. Weidner, Timothy A. Davis, Theodore Kim, Shinjiro Sueda:
QLB: Collision-Aware Quasi-Newton Solver with Cholesky and L-BFGS for Nonlinear Time Integration. MIG 2021: 14:1-14:7 - [i2]Theodore Kim, Holly E. Rushmeier, Julie Dorsey, Derek Nowrouzezahrai, Raqi Syed, Wojciech Jarosz, A. M. Darke:
Countering Racial Bias in Computer Graphics Research. CoRR abs/2103.15163 (2021) - 2020
- [j28]Qiaodong Cui, Timothy R. Langlois, Pradeep Sen, Theodore Kim:
Fast and Robust Stochastic Structural Optimization. Comput. Graph. Forum 39(2): 385-397 (2020) - [j27]Theodore Kim:
A Finite Element Formulation of Baraff-Witkin Cloth. Comput. Graph. Forum 39(8): 171-179 (2020) - [c19]Nicholas J. Weidner, Theodore Kim, Shinjiro Sueda:
ConJac: Large Steps in Dynamic Simulation. MIG 2020: 6:1-6:8 - [c18]Theodore Kim, David Eberle:
Dynamic deformables: implementation and production practicalities. SIGGRAPH Courses 2020: 23:1-23:182
2010 – 2019
- 2019
- [j26]Byungsoo Kim, Vinicius C. Azevedo, Nils Thuerey, Theodore Kim, Markus H. Gross, Barbara Solenthaler:
Deep Fluids: A Generative Network for Parameterized Fluid Simulations. Comput. Graph. Forum 38(2): 59-70 (2019) - [j25]Breannan Smith, Fernando de Goes, Theodore Kim:
Analytic Eigensystems for Isotropic Distortion Energies. ACM Trans. Graph. 38(1): 3:1-3:15 (2019) - [j24]Theodore Kim, Fernando de Goes, Hayley N. Iben:
Anisotropic elasticity for inversion-safety and element rehabilitation. ACM Trans. Graph. 38(4): 69:1-69:15 (2019) - 2018
- [j23]Breannan Smith, Fernando de Goes, Theodore Kim:
Stable Neo-Hookean Flesh Simulation. ACM Trans. Graph. 37(2): 12 (2018) - [j22]Syuhei Sato, Yoshinori Dobashi, Theodore Kim, Tomoyuki Nishita:
Example-based turbulence style transfer. ACM Trans. Graph. 37(4): 84 (2018) - [j21]Qiaodong Cui, Pradeep Sen, Theodore Kim:
Scalable laplacian eigenfluids. ACM Trans. Graph. 37(4): 87 (2018) - [c17]Audrey Wong, David Eberle, Theodore Kim:
Clean cloth inputs: removing character self-intersections with volume simulation. SIGGRAPH Talks 2018: 42:1-42:2 - [c16]Ryan Kautzman, Gordon Cameron, Theodore Kim:
Robust skin simulation in Incredibles 2. SIGGRAPH Talks 2018: 50:1-50:2 - [i1]Byungsoo Kim, Vinicius C. Azevedo, Nils Thuerey, Theodore Kim, Markus H. Gross, Barbara Solenthaler:
Deep Fluids: A Generative Network for Parameterized Fluid Simulations. CoRR abs/1806.02071 (2018) - 2017
- [j20]Jeongsu Yun, Myung-Bae Son, Byungyoon Choi, Theodore Kim, Sung-Eui Yoon:
Physically inspired, interactive lightning generation. Comput. Animat. Virtual Worlds 28(3-4) (2017) - 2016
- [j19]Yun Teng, David I. W. Levin, Theodore Kim:
Eulerian solid-fluid coupling. ACM Trans. Graph. 35(6): 200:1-200:8 (2016) - [j18]José A. Canabal, David Miraut, Nils Thuerey, Theodore Kim, Javier Portilla, Miguel A. Otaduy:
Dispersion kernels for water wave simulation. ACM Trans. Graph. 35(6): 202:1-202:10 (2016) - [c15]Aaron Demby Jones, Pradeep Sen, Theodore Kim:
Compressing fluid subspaces. Symposium on Computer Animation 2016: 77-84 - 2015
- [j17]Theodore Kim:
Quaternion Julia Set Shape Optimization. Comput. Graph. Forum 34(5): 167-176 (2015) - [j16]Yun Teng, Mark Meyer, Tony DeRose, Theodore Kim:
Subspace condensation: full space adaptivity for subspace deformations. ACM Trans. Graph. 34(4): 76:1-76:9 (2015) - [j15]Olivier Mercier, Cynthia Beauchemin, Nils Thuerey, Theodore Kim, Derek Nowrouzezahrai:
Surface turbulence for particle-based liquid simulations. ACM Trans. Graph. 34(6): 202:1-202:10 (2015) - 2014
- [j14]Yun Teng, Miguel A. Otaduy, Theodore Kim:
Simulating articulated subspace self-contact. ACM Trans. Graph. 33(4): 106:1-106:9 (2014) - [j13]Theodore Kim, Robert Summer:
Guest Editors' Introduction: Special Section on the ACM SIGGRAPH/Eurographics Symposium on Computer Animation (SCA). IEEE Trans. Vis. Comput. Graph. 20(10): 1344 (2014) - [c14]Tobias Pfaff, Theodore Kim, Nils Thürey:
Turbulent Fluids. Eurographics (Tutorials) 2014: 6 - 2013
- [j12]Theodore Kim, Jerry Tessendorf, Nils Thürey:
Closest point turbulence for liquid surfaces. ACM Trans. Graph. 32(2): 15:1-15:13 (2013) - [j11]Theodore Kim, John Delaney:
Subspace fluid re-simulation. ACM Trans. Graph. 32(4): 62:1-62:9 (2013) - [j10]Bo Ren, Chen-Feng Li, Ming C. Lin, Theodore Kim, Shi-Min Hu:
Flow Field Modulation. IEEE Trans. Vis. Comput. Graph. 19(10): 1708-1719 (2013) - [c13]Nils Thuerey, Theodore Kim, Tobias Pfaff:
Turbulent fluids. SIGGRAPH Courses 2013: 6:1 - [c12]Domagoj Baricevic, James Schaffer, Theodore Kim:
PhysPix: instantaneous rigid body simulation of rasters. SIGGRAPH Posters 2013: 10 - [e1]Jinxiang Chai, Yizhou Yu, Theodore Kim, Robert W. Sumner:
The ACM SIGGRAPH / Eurographics Symposium on Computer Animation, SCA '13, Anaheim, CA, USA, July 19-21, 2013. ACM 2013, ISBN 978-1-4503-2132-7 [contents] - 2012
- [j9]Theodore Kim, Doug L. James:
Physics-Based Character Skinning Using Multidomain Subspace Deformations. IEEE Trans. Vis. Comput. Graph. 18(8): 1228-1240 (2012) - 2011
- [c11]Theodore Kim, Doug L. James:
Physics-based Character Skinningusing Multi-Domain Subspace Deformations. Symposium on Computer Animation 2011: 63-72
2000 – 2009
- 2009
- [j8]Theodore Kim, Doug L. James:
Skipping steps in deformable simulation with online model reduction. ACM Trans. Graph. 28(5): 123 (2009) - [c10]Zhan Gao, Theodore Kim, Doug L. James, Jaydev P. Desai:
Semi-automated soft-tissue acquisition and modeling for surgical simulation. CASE 2009: 268-273 - 2008
- [j7]Theodore Kim, Nils Thürey, Doug L. James, Markus H. Gross:
Wavelet turbulence for fluid simulation. ACM Trans. Graph. 27(3): 50 (2008) - [j6]Steven S. An, Theodore Kim, Doug L. James:
Optimizing cubature for efficient integration of subspace deformations. ACM Trans. Graph. 27(5): 165 (2008) - [c9]Theodore Kim:
Hardware-aware analysis and optimization of stable fluids. SI3D 2008: 99-106 - 2007
- [j5]Theodore Kim, Jason Sewall, Avneesh Sud, Ming C. Lin:
Fast Simulation of Laplacian Growth. IEEE Computer Graphics and Applications 27(2): 68-76 (2007) - [j4]Theodore Kim, Ming C. Lin:
Stable advection-reaction-diffusion with arbitrary anisotropy. Comput. Animat. Virtual Worlds 18(4-5): 329-338 (2007) - [j3]Theodore Kim, Ming C. Lin:
Fast Animation of Lightning Using an Adaptive Mesh. IEEE Trans. Vis. Comput. Graph. 13(2): 390-402 (2007) - [j2]Vivek Kwatra, David Adalsteinsson, Theodore Kim, Nipun Kwatra, Mark Carlson, Ming C. Lin:
Texturing Fluids. IEEE Trans. Vis. Comput. Graph. 13(5): 939-952 (2007) - [c8]Rahul Narain, Vivek Kwatra, Huai-Ping Lee, Theodore Kim, Mark Carlson, Ming C. Lin:
Feature-Guided Dynamic Texture Synthesis on Continuous Flows. Rendering Techniques 2007: 361-370 - [c7]Theodore Kim, Mark Carlson:
A simple boiling module. Symposium on Computer Animation 2007: 27-34 - 2006
- [c6]Theodore Kim, David Adalsteinsson, Ming C. Lin:
Modeling ice dynamics as a thin-film Stefan problem. Symposium on Computer Animation 2006: 167-176 - 2005
- [c5]Theodore Kim, Jason Sewall, Avneesh Sud, Ming C. Lin:
A fast fractal growth algorithm. SIGGRAPH Sketches 2005: 97 - 2004
- [c4]Theodore Kim, Ming C. Lin:
Physically Based Animation and Rendering of Lightning. PG 2004: 267-275 - [c3]Theodore Kim, Michael Henson, Ming C. Lin:
A hybrid algorithm for modeling ice formation. Symposium on Computer Animation 2004: 305-314 - [c2]Theodore Kim, Michael Henson, Ming C. Lin:
A physically based model of ice. SIGGRAPH Sketches 2004: 13 - 2003
- [c1]Theodore Kim, Ming C. Lin:
Visual simulation of ice crystal growth. Symposium on Computer Animation 2003: 86-97 - 2002
- [j1]Scott Bailey, Theodore Kim, Robert S. Strichartz:
Inside the Lévy Dragon. Am. Math. Mon. 109(8): 689-703 (2002)
Coauthor Index
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last updated on 2024-08-05 21:18 CEST by the dblp team
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