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Christopher Batty
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2020 – today
- 2024
- [j39]Sergio Sancho, Jingwei Tang, Christopher Batty, Vinicius C. Azevedo:
The Impulse Particle-In-Cell Method. Comput. Graph. Forum 43(2): i-iii (2024) - [j38]Nathan D. King, Haozhe Su, Mridul Aanjaneya, Steven J. Ruuth, Christopher Batty:
A Closest Point Method for PDEs on Manifolds with Interior Boundary Conditions for Geometry Processing. ACM Trans. Graph. 43(5): 159:1-159:26 (2024) - [c18]Ryusuke Sugimoto, Christopher Batty, Toshiya Hachisuka:
Velocity-Based Monte Carlo Fluids. SIGGRAPH (Conference Paper Track) 2024: 8 - [c17]Silvia Sellán, Yingying Ren, Christopher Batty, Oded Stein:
Reach for the Arcs: Reconstructing Surfaces from SDFs via Tangent Points. SIGGRAPH (Conference Paper Track) 2024: 23 - [c16]Ryusuke Sugimoto, Nathan D. King, Toshiya Hachisuka, Christopher Batty:
Projected Walk on Spheres: A Monte Carlo Closest Point Method for Surface PDEs. SIGGRAPH Asia 2024: 8:1-8:10 - [c15]Tümay Özdemir, Jiamin Shi, Nathan D. King, Christopher Batty:
Editing Fluid Flows with Divergence-Free Biharmonic Vector Field Interpolation. SIGGRAPH Asia Technical Communications 2024: 41:1-41:4 - [c14]Ryusuke Sugimoto, Jeff Lait, Christopher Batty, Toshiya Hachisuka:
Galerkin Method of Regularized Stokeslets for Procedural Fluid Flow with Control Curves. SIGGRAPH Asia Technical Communications 2024: 42:1-42:4 - [c13]Nathan D. King, Steven J. Ruuth, Christopher Batty:
A Simple Heat Method for Computing Geodesic Paths on General Manifold Representations. SIGGRAPH Asia Posters 2024: 69:1-69:2 - [i12]Ryusuke Sugimoto, Christopher Batty, Toshiya Hachisuka:
Velocity-Based Monte Carlo Fluids. CoRR abs/2404.16274 (2024) - [i11]Tetsuya Takahashi, Christopher Batty:
Rest Shape Optimization for Sag-Free Discrete Elastic Rods. CoRR abs/2409.12362 (2024) - [i10]Ryusuke Sugimoto, Jeff Lait, Christopher Batty, Toshiya Hachisuka:
Galerkin Method of Regularized Stokeslets for Procedural Fluid Flow with Control Curves. CoRR abs/2409.18276 (2024) - [i9]Ryusuke Sugimoto, Nathan D. King, Toshiya Hachisuka, Christopher Batty:
Projected Walk on Spheres: A Monte Carlo Closest Point Method for Surface PDEs. CoRR abs/2410.03844 (2024) - 2023
- [j37]Xinwen Ding, Christopher Batty:
Differentiable Curl-Noise: Boundary-Respecting Procedural Incompressible Flows Without Discontinuities. Proc. ACM Comput. Graph. Interact. Tech. 6(1): 16:1-16:16 (2023) - [j36]Tetsuya Takahashi, Christopher Batty:
A Multilevel Active-Set Preconditioner for Box-Constrained Pressure Poisson Solvers. Proc. ACM Comput. Graph. Interact. Tech. 6(3): 50:1-50:22 (2023) - [j35]Ryusuke Sugimoto, Terry Chen, Yiti Jiang, Christopher Batty, Toshiya Hachisuka:
A Practical Walk-on-Boundary Method for Boundary Value Problems. ACM Trans. Graph. 42(4): 81:1-81:16 (2023) - [j34]Jonathan Panuelos, Ryan Goldade, Eitan Grinspun, David I. W. Levin, Christopher Batty:
PolyStokes: A Polynomial Model Reduction Method for Viscous Fluid Simulation. ACM Trans. Graph. 42(4): 124:1-124:13 (2023) - [c12]Silvia Sellán, Christopher Batty, Oded Stein:
Reach For the Spheres: Tangency-aware surface reconstruction of SDFs. SIGGRAPH Asia 2023: 73:1-73:11 - [i8]Ryusuke Sugimoto, Terry Chen, Yiti Jiang, Christopher Batty, Toshiya Hachisuka:
A Practical Walk-on-Boundary Method for Boundary Value Problems. CoRR abs/2305.04403 (2023) - [i7]Nathan D. King, Haozhe Su, Mridul Aanjaneya, Steven J. Ruuth, Christopher Batty:
A Closest Point Method for Surface PDEs with Interior Boundary Conditions for Geometry Processing. CoRR abs/2305.04711 (2023) - [i6]Silvia Sellán, Christopher Batty, Oded Stein:
Reach For the Spheres: Tangency-Aware Surface Reconstruction of SDFs. CoRR abs/2308.09813 (2023) - 2022
- [j33]Ryusuke Sugimoto, Christopher Batty, Toshiya Hachisuka:
Surface-Only Dynamic Deformables using a Boundary Element Method. Comput. Graph. Forum 41(8): 75-86 (2022) - [j32]Michael Tao, Christopher Batty, Mirela Ben-Chen, Eugene Fiume, David I. W. Levin:
VEMPIC: particle-in-polyhedron fluid simulation for intricate solid boundaries. ACM Trans. Graph. 41(4): 115:1-115:22 (2022) - [j31]Damien Rioux-Lavoie, Ryusuke Sugimoto, Tümay Özdemir, Naoharu H. Shimada, Christopher Batty, Derek Nowrouzezahrai, Toshiya Hachisuka:
A Monte Carlo Method for Fluid Simulation. ACM Trans. Graph. 41(6): 240:1-240:16 (2022) - [j30]Jumyung Chang, Ruben Partono, Vinicius C. Azevedo, Christopher Batty:
Curl-Flow: Boundary-Respecting Pointwise Incompressible Velocity Interpolation for Grid-Based Fluids. ACM Trans. Graph. 41(6): 243:1-243:21 (2022) - [j29]Tetsuya Takahashi, Christopher Batty:
ElastoMonolith: A Monolithic Optimization-Based Liquid Solver for Contact-Aware Elastic-Solid Coupling. ACM Trans. Graph. 41(6): 255:1-255:19 (2022) - 2021
- [j28]Tetsuya Takahashi, Christopher Batty:
FrictionalMonolith: a monolithic optimization-based approach for granular flow with contact-aware rigid-body coupling. ACM Trans. Graph. 40(6): 206:1-206:20 (2021) - [i5]Jumyung Chang, Vinicius C. Azevedo, Christopher Batty:
Curl-Flow: Pointwise Incompressible Velocity Interpolation forGrid-Based Fluids. CoRR abs/2104.00867 (2021) - 2020
- [j27]Junyu Lai, Yangang Chen, Yu Gu, Christopher Batty, Justin W. L. Wan:
Fast and Scalable Solvers for the Fluid Pressure Equations with Separating Solid Boundary Conditions. Comput. Graph. Forum 39(2): 23-33 (2020) - [j26]Ryoichi Ando, Christopher Batty:
A practical octree liquid simulator with adaptive surface resolution. ACM Trans. Graph. 39(4): 32 (2020) - [j25]Ryan Goldade, Mridul Aanjaneya, Christopher Batty:
Constraint bubbles and affine regions: reduced fluid models for efficient immersed bubbles and flexible spatial coarsening. ACM Trans. Graph. 39(4): 43 (2020) - [j24]Tetsuya Takahashi, Christopher Batty:
Monolith: a monolithic pressure-viscosity-contact solver for strong two-way rigid-rigid rigid-fluid coupling. ACM Trans. Graph. 39(6): 182:1-182:16 (2020) - [c11]Jonathan Panuelos, Ryan Goldade, Christopher Batty:
Efficient Unified Stokes using a Polynomial Reduced Fluid Model. SCA (Posters) 2020: 1-3 - [i4]Prashant Goswami, Christopher Batty:
Asynchronous Liquids: Regional Time Stepping for Faster SPH and PCISPH. CoRR abs/2009.14514 (2020)
2010 – 2019
- 2019
- [j23]Christopher Batty, Paul G. Kry:
Foreword to the Special Section on Graphics Interface 2018. Comput. Graph. 78: 3- (2019) - [j22]Jumyung Chang, Fang Da, Eitan Grinspun, Christopher Batty:
A Unified Simplicial Model for Mixed-Dimensional and Non-Manifold Deformable Elastic Objects. Proc. ACM Comput. Graph. Interact. Tech. 2(2): 11:1-11:18 (2019) - [j21]Mridul Aanjaneya, Chengguizi Han, Ryan Goldade, Christopher Batty:
An Efficient Geometric Multigrid Solver for Viscous Liquids. Proc. ACM Comput. Graph. Interact. Tech. 2(2): 14:1-14:21 (2019) - [j20]Ryan Goldade, Yipeng Wang, Mridul Aanjaneya, Christopher Batty:
An adaptive variational finite difference framework for efficient symmetric octree viscosity. ACM Trans. Graph. 38(4): 94:1-94:14 (2019) - [j19]Michael Tao, Christopher Batty, Eugene Fiume, David I. W. Levin:
Mandoline: robust cut-cell generation for arbitrary triangle meshes. ACM Trans. Graph. 38(6): 179:1-179:17 (2019) - [j18]Yun (Raymond) Fei, Christopher Batty, Eitan Grinspun, Changxi Zheng:
A multi-scale model for coupling strands with shear-dependent liquid. ACM Trans. Graph. 38(6): 190:1-190:20 (2019) - [c10]Jumyung Chang, Vinicius C. Azevedo, Christopher Batty:
Divergence-free and boundary-respecting velocity interpolation using stream functions. Symposium on Computer Animation 2019: 7:1-7:2 - [e2]Christopher Batty, Derek Reilly:
Proceedings of the 44th Graphics Interface Conference, Toronto, Canada, May 8-11, 2018. ACM 2019, ISBN 978-0-9947868-3-8 [contents] - [e1]Sung-Hee Lee, Craig A. Schroeder, Stephen N. Spencer, Christopher Batty, Jin Huang:
Proceedings of the 18th annual ACM SIGGRAPH/Eurographics Symposium on Computer Animation, SCA 2019, Los Angeles, CA, USA, July 26-28, 2019. ACM 2019, ISBN 978-1-4503-6677-9 [contents] - [i3]Yun Fei, Christopher Batty, Eitan Grinspun:
Addressing Troubles with Double Bubbles: Convergence and Stability at Multi-Bubble Junctions. CoRR abs/1910.06402 (2019) - 2018
- [j17]Takahiro Sato, Christopher Batty, Takeo Igarashi, Ryoichi Ando:
Spatially adaptive long-term semi-Lagrangian method for accurate velocity advection. Comput. Vis. Media 4(3): 223-230 (2018) - [j16]Yun (Raymond) Fei, Christopher Batty, Eitan Grinspun, Changxi Zheng:
A multi-scale model for simulating liquid-fabric interactions. ACM Trans. Graph. 37(4): 51 (2018) - [c9]Christopher Batty:
Session details: Michael A. J. Sweeney Best Student Paper Award Talk (Graphics). Graphics Interface 2018 - 2017
- [j15]Christopher Batty:
A cell-centred finite volume method for the Poisson problem on non-graded quadtrees with second order accurate gradients. J. Comput. Phys. 331: 49-72 (2017) - [j14]Yun (Raymond) Fei, Henrique Teles Maia, Christopher Batty, Changxi Zheng, Eitan Grinspun:
A multi-scale model for simulating liquid-hair interactions. ACM Trans. Graph. 36(4): 56:1-56:17 (2017) - [j13]Egor Larionov, Christopher Batty, Robert Bridson:
Variational stokes: a unified pressure-viscosity solver for accurate viscous liquids. ACM Trans. Graph. 36(4): 101:1-101:11 (2017) - [j12]Mridul Aanjaneya, Ming Gao, Haixiang Liu, Christopher Batty, Eftychios Sifakis:
Power diagrams and sparse paged grids for high resolution adaptive liquids. ACM Trans. Graph. 36(4): 140:1-140:12 (2017) - [c8]Omar Zarifi, Christopher Batty:
A positive-definite cut-cell method for strong two-way coupling between fluids and deformable bodies. Symposium on Computer Animation 2017: 7:1-7:11 - [c7]Takahiro Sato, Takeo Igarashi, Christopher Batty, Ryoichi Ando:
A long-term semi-lagrangian method for accurate velocity advection. SIGGRAPH Asia Technical Briefs 2017: 5:1-5:4 - [i2]Ryan Goldade, Christopher Batty:
Constraint Bubbles: Adding Efficient Zero-Density Bubbles to Incompressible Free Surface Flow. CoRR abs/1711.11470 (2017) - 2016
- [j11]Ryan Goldade, Christopher Batty, Chris Wojtan:
A Practical Method for High-Resolution Embedded Liquid Surfaces. Comput. Graph. Forum 35(2): 233-242 (2016) - [j10]Fang Da, David Hahn, Christopher Batty, Chris Wojtan, Eitan Grinspun:
Surface-only liquids. ACM Trans. Graph. 35(4): 78:1-78:12 (2016) - [j9]Vinicius C. Azevedo, Christopher Batty, Manuel M. Oliveira:
Preserving geometry and topology for fluid flows with thin obstacles and narrow gaps. ACM Trans. Graph. 35(4): 97:1-97:12 (2016) - 2015
- [j8]Fang Da, Christopher Batty, Chris Wojtan, Eitan Grinspun:
Double bubbles sans toil and trouble: discrete circulation-preserving vortex sheets for soap films and foams. ACM Trans. Graph. 34(4): 149:1-149:9 (2015) - [j7]Yonghao Yue, Breannan Smith, Christopher Batty, Changxi Zheng, Eitan Grinspun:
Continuum Foam: A Material Point Method for Shear-Dependent Flows. ACM Trans. Graph. 34(5): 160:1-160:20 (2015) - 2014
- [j6]Fang Da, Christopher Batty, Eitan Grinspun:
Multimaterial mesh-based surface tracking. ACM Trans. Graph. 33(4): 112:1-112:11 (2014) - [c6]Prashant Goswami, Christopher Batty:
Regional Time Stepping for SPH. Eurographics (Short Papers) 2014: 45-48 - 2012
- [j5]Christopher Batty, Andres Uribe, Basile Audoly, Eitan Grinspun:
Discrete viscous sheets. ACM Trans. Graph. 31(4): 113:1-113:7 (2012) - 2011
- [c5]Christopher Batty, Ben Houston:
A Simple Finite Volume Method for Adaptive Viscous Liquids. Symposium on Computer Animation 2011: 111-118 - 2010
- [j4]Christopher Batty, Stefan Xenos, Ben Houston:
Tetrahedral Embedded Boundary Methods for Accurate and Flexible Adaptive Fluids. Comput. Graph. Forum 29(2): 695-704 (2010) - [j3]Tyson Brochu, Christopher Batty, Robert Bridson:
Matching fluid simulation elements to surface geometry and topology. ACM Trans. Graph. 29(4): 47:1-47:9 (2010) - [i1]Christopher Batty, Robert Bridson:
A Variational Finite Difference Method for Time-Dependent Stokes Flow on Irregular Domains. CoRR abs/1010.2832 (2010)
2000 – 2009
- 2008
- [c4]Christopher Batty, Robert Bridson:
Accurate Viscous Free Surfaces for Buckling, Coiling, and Rotating Liquids. Symposium on Computer Animation 2008: 219-228 - 2007
- [j2]Christopher Batty, Florence Bertails, Robert Bridson:
A fast variational framework for accurate solid-fluid coupling. ACM Trans. Graph. 26(3): 100 (2007) - 2006
- [j1]Ben Houston, Michael Bang Nielsen, Christopher Batty, Ola Nilsson, Ken Museth:
Hierarchical RLE level set: A compact and versatile deformable surface representation. ACM Trans. Graph. 25(1): 151-175 (2006) - 2005
- [c3]Christopher Batty, Ben Houston:
Visual simulation of wispy smoke. SIGGRAPH Sketches 2005: 114 - [c2]Ben Houston, Michael Bang Nielsen, Christopher Batty, Ola Nilsson, Ken Museth:
Gigantic deformable surfaces. SIGGRAPH Sketches 2005: 141 - 2004
- [c1]Ben Houston, Mark Wiebe, Christopher Batty:
RLE sparse level sets. SIGGRAPH Sketches 2004: 137
Coauthor Index
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last updated on 2024-12-23 20:29 CET by the dblp team
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