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ORCIDCraig A. Schroeder
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- affiliation: University of California Riverside, CA, USA
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2020 – today
- 2025
[j25]Jason Goulding, Tamar Shinar, Craig A. Schroeder
:
Conservative, bounded, and nonlinear discretization of the Cahn-Hilliard-Navier-Stokes equations. J. Comput. Phys. 523: 113632 (2025)- 2024
- [j24]C. Zhao, Tamar Shinar, Craig A. Schroeder:
Reconstruction of implicit surfaces from fluid particles using convolutional neural networks. Comput. Graph. Forum 43(8): i-ix (2024) - [j23]Ritoban Roy Chowdhury, Tamar Shinar, Craig A. Schroeder:
Higher order divergence-free and curl-free interpolation on MAC grids. J. Comput. Phys. 503: 112831 (2024) - [j22]Han Jiang, Craig A. Schroeder:
Second order accurate particle-in-cell discretization of the Navier-Stokes equations. J. Comput. Phys. 518: 113302 (2024) - [j21]Jason Goulding, Mehrnaz Ayazi, Tamar Shinar, Craig A. Schroeder:
Simplified conservative discretization of the Cahn-Hilliard-Navier-Stokes equations. J. Comput. Phys. 519: 113382 (2024) - 2022
- [j20]Song Bai, Craig A. Schroeder:
Stability analysis of explicit MPM. Comput. Graph. Forum 41(8): 19-30 (2022) - [j19]Craig A. Schroeder, Ritoban Roy Chowdhury, Tamar Shinar:
Local divergence-free polynomial interpolation on MAC grids. J. Comput. Phys. 468: 111500 (2022) - [c15]Xuan Li, Yadi Cao, Minchen Li, Yin Yang, Craig A. Schroeder, Chenfanfu Jiang:
PlasticityNet: Learning to Simulate Metal, Sand, and Snow for Optimization Time Integration. NeurIPS 2022 - [c14]Craig A. Schroeder:
Practical course on computing derivatives in code. SIGGRAPH Courses 2022: 12:1-12:28 - 2021
- [j18]Muzaffer Akbay, Craig A. Schroeder, Tamar Shinar:
Boundary pressure projection for partitioned solution of fluid-structure interaction with incompressible Dirichlet fluid domains. J. Comput. Phys. 425: 109894 (2021) - 2020
- [j17]Yunxin Sun, Tamar Shinar, Craig A. Schroeder:
Effective time step restrictions for explicit MPM simulation. Comput. Graph. Forum 39(8): 55-67 (2020) - [j16]Ounan Ding, Tamar Shinar, Craig A. Schroeder:
Affine particle in cell method for MAC grids and fluid simulation. J. Comput. Phys. 408: 109311 (2020) - [j15]Ounan Ding, Craig A. Schroeder:
Cached Gaussian elimination for simulating Stokes flow on domains with repetitive geometry. J. Comput. Phys. 423: 109812 (2020) - [j14]Ounan Ding, Craig A. Schroeder:
Penalty Force for Coupling Materials with Coulomb Friction. IEEE Trans. Vis. Comput. Graph. 26(7): 2443-2455 (2020)
2010 – 2019
- 2019
- [c13]Craig A. Schroeder:
Practical course on computing derivatives in code. SIGGRAPH Courses 2019: 22:1-22:22 - [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] - 2017
- [j13]Chenfanfu Jiang, Craig A. Schroeder, Joseph Teran:
An angular momentum conserving affine-particle-in-cell method. J. Comput. Phys. 338: 137-164 (2017) - 2016
- [j12]Gergely Klár, Theodore F. Gast, Andre Pradhana, Chuyuan Fu, Craig A. Schroeder, Chenfanfu Jiang, Joseph Teran:
Drucker-prager elastoplasticity for sand animation. ACM Trans. Graph. 35(4): 103:1-103:12 (2016) - [c12]Chenfanfu Jiang, Craig A. Schroeder, Joseph Teran, Alexey Stomakhin, Andrew Selle:
The material point method for simulating continuum materials. SIGGRAPH Courses 2016: 24:1-24:52 - 2015
- [j11]Chenfanfu Jiang, Craig A. Schroeder, Andrew Selle, Joseph Teran, Alexey Stomakhin:
The affine particle-in-cell method. ACM Trans. Graph. 34(4): 51:1-51:10 (2015) - [j10]Theodore F. Gast, Craig A. Schroeder, Alexey Stomakhin, Chenfanfu Jiang, Joseph M. Teran:
Optimization Integrator for Large Time Steps. IEEE Trans. Vis. Comput. Graph. 21(10): 1103-1115 (2015) - [c11]Daniel Ram, Theodore F. Gast, Chenfanfu Jiang, Craig A. Schroeder, Alexey Stomakhin, Joseph Teran, Pirouz Kavehpour:
A material point method for viscoelastic fluids, foams and sponges. Symposium on Computer Animation 2015: 157-163 - 2014
- [j9]Craig A. Schroeder, Alexey Stomakhin, Russell Howes, Joseph M. Teran:
A second order virtual node algorithm for Navier-Stokes flow problems with interfacial forces and discontinuous material properties. J. Comput. Phys. 265: 221-245 (2014) - [j8]Alexey Stomakhin, Craig A. Schroeder, Chenfanfu Jiang, Lawrence Chai, Joseph Teran, Andrew Selle:
Augmented MPM for phase-change and varied materials. ACM Trans. Graph. 33(4): 138:1-138:11 (2014) - [c10]Theodore F. Gast, Craig A. Schroeder:
Optimization Integrator for Large Time Steps. Symposium on Computer Animation 2014: 31-40 - [c9]Yuting Wang, Chenfanfu Jiang, Craig A. Schroeder, Joseph Teran:
An Adaptive Virtual Node Algorithm with Robust Mesh Cutting. Symposium on Computer Animation 2014: 77-85 - 2013
- [j7]Alexey Stomakhin, Craig A. Schroeder, Lawrence Chai, Joseph Teran, Andrew Selle:
A material point method for snow simulation. ACM Trans. Graph. 32(4): 102:1-102:10 (2013) - [c8]Jan Hegemann, Chenfanfu Jiang, Craig A. Schroeder, Joseph M. Teran:
A level set method for ductile fracture. Symposium on Computer Animation 2013: 193-201 - 2012
- [j6]Craig A. Schroeder, Zheng Wen, Ronald Fedkiw:
Semi-implicit surface tension formulation with a Lagrangian surface mesh on an Eulerian simulation grid. J. Comput. Phys. 231(4): 2092-2115 (2012) - [c7]Peter Kung, Dominik P. Käser, Craig A. Schroeder, Tony DeRose, Donald Greenberg, Kenrick Kin:
An augmented multi-touch system using hand and finger identification. CHI Extended Abstracts 2012: 1431-1432 - [c6]Alexey Stomakhin, Russell Howes, Craig A. Schroeder, Joseph M. Teran:
Energetically Consistent Invertible Elasticity. Symposium on Computer Animation 2012: 25-32 - 2011
- [b1]Craig A. Schroeder:
Coupled simulation of deformable solids, rigid bodies, and fluids with surface tension. Stanford University, USA, 2011 - [j5]Craig A. Schroeder, Nipun Kwatra, Zheng Wen, Ronald Fedkiw:
Asynchronous Evolution for Fully-Implicit and Semi-Implicit Time Integration. Comput. Graph. Forum 30(7): 1983-1992 (2011) - [j4]Avi Robinson-Mosher, Craig A. Schroeder, Ronald Fedkiw:
A symmetric positive definite formulation for monolithic fluid structure interaction. J. Comput. Phys. 230(4): 1547-1566 (2011) - [j3]Michael Lentine, Jon Gretarsson, Craig A. Schroeder, Avi Robinson-Mosher, Ronald Fedkiw:
Creature Control in a Fluid Environment. IEEE Trans. Vis. Comput. Graph. 17(5): 682-693 (2011) - [c5]Pradeep Dubey, Pat Hanrahan, Ronald Fedkiw, Michael Lentine, Craig A. Schroeder:
PhysBAM: physically based simulation. SIGGRAPH Courses 2011: 10:1-10:22
2000 – 2009
- 2009
- [c4]Jonathan Su, Craig A. Schroeder, Ronald Fedkiw:
Energy stability and fracture for frame rate rigid body simulations. Symposium on Computer Animation 2009: 155-164 - 2008
- [c3]Tamar Shinar, Craig A. Schroeder, Ronald Fedkiw:
Two-way Coupling of Rigid and Deformable Bodies. Symposium on Computer Animation 2008: 95-103 - 2007
- [j2]Geoffrey Irving, Craig A. Schroeder, Ronald Fedkiw:
Volume conserving finite element simulations of deformable models. ACM Trans. Graph. 26(3): 13 (2007) - 2005
- [j1]Craig A. Schroeder, William C. Regli, Ali Shokoufandeh, Wei Sun:
Computer-aided design of porous artifacts. Comput. Aided Des. 37(3): 339-353 (2005) - [c2]Craig A. Schroeder, David E. Breen, Christopher D. Cera, William C. Regli:
Stochastic Microgeometry for Displacement Mapping. SMI 2005: 166-175 - 2003
- [c1]Craig A. Schroeder, William C. Regli, Ali Shokoufandeh, Wei Sun:
Representation of porous artifacts for bio-medical applications. Symposium on Solid Modeling and Applications 2003: 254-257
Coauthor Index
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