default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDAlec Jacobson
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[j72]Alec Jacobson:
Optimized Dual-Volumes for Tetrahedral Meshes. Comput. Graph. Forum 43(5): i-x (2024)- [j71]Leonardo Sacht
, Alec Jacobson:
Cascading upper bounds for triangle soup Pompeiu-Hausdorff distance. Comput. Graph. Forum 43(5): i-x (2024) - [j70]Yuta Noma, Silvia Sellán, Nicholas Sharp, Karan Singh, Alec Jacobson:
Surface-Filling Curve Flows via Implicit Medial Axes. ACM Trans. Graph. 43(4): 147:1-147:12 (2024) - [c39]Vikas Thamizharasan, Difan Liu, Shantanu Agarwal, Matthew Fisher, Michaël Gharbi, Oliver Wang, Alec Jacobson, Evangelos Kalogerakis:
VecFusion: Vector Font Generation with Diffusion. CVPR 2024: 7943-7952 - [c38]Lily Goli, Cody Reading, Silvia Sellán, Alec Jacobson, Andrea Tagliasacchi:
Bayes' Rays: Uncertainty Quantification for Neural Radiance Fields. CVPR 2024: 20061-20070 - [c37]Alec Jacobson:
Gender Diversity of Graphics Conference Leadership. SIGGRAPH Talks 2024: 7 - [c36]Honglin Chen, Hsueh-Ti Derek Liu, David I. W. Levin, Changxi Zheng, Alec Jacobson:
Stabler Neo-Hookean Simulation: Absolute Eigenvalue Filtering for Projected Newton. SIGGRAPH (Conference Paper Track) 2024: 90 - [i54]Yun-Chun Chen, Selena Ling, Zhiqin Chen, Vladimir G. Kim, Matheus Gadelha, Alec Jacobson:
Text-guided Controllable Mesh Refinement for Interactive 3D Modeling. CoRR abs/2406.01592 (2024) - [i53]Honglin Chen, Hsueh-Ti Derek Liu, David I. W. Levin, Changxi Zheng, Alec Jacobson:
Stabler Neo-Hookean Simulation: Absolute Eigenvalue Filtering for Projected Newton. CoRR abs/2406.05928 (2024) - [i52]Alec Jacobson:
Optimized Dual-Volumes for Tetrahedral Meshes. CoRR abs/2406.08647 (2024) - [i51]Leonardo Sacht, Alec Jacobson:
Cascading upper bounds for triangle soup Pompeiu-Hausdorff distance. CoRR abs/2406.10357 (2024) - [i50]Sara Sabour, Lily Goli, George Kopanas, Mark J. Matthews, Dmitry Lagun, Leonidas J. Guibas, Alec Jacobson, David J. Fleet, Andrea Tagliasacchi:
SpotlessSplats: Ignoring Distractors in 3D Gaussian Splatting. CoRR abs/2406.20055 (2024) - [i49]Chenxi Liu, Siqi Wang, Matthew Fisher, Deepali Aneja, Alec Jacobson:
2D Neural Fields with Learned Discontinuities. CoRR abs/2408.00771 (2024) - 2023
- [j69]Kunho Kim, Mikaela Angelina Uy, Despoina Paschalidou, Alec Jacobson, Leonidas J. Guibas, Minhyuk Sung:
OptCtrlPoints: Finding the Optimal Control Points for Biharmonic 3D Shape Deformation. Comput. Graph. Forum 42(7) (2023) - [j68]Silvia Sellán, Jack Luong, Leticia Mattos Da Silva, Aravind Ramakrishnan, Yuchuan Yang, Alec Jacobson:
Breaking Good: Fracture Modes for Realtime Destruction. ACM Trans. Graph. 42(1): 10:1-10:12 (2023) - [j67]Otman Benchekroun, Jiayi Eris Zhang, Siddartha Chaudhuri, Eitan Grinspun, Yi Zhou, Alec Jacobson:
Fast Complementary Dynamics via Skinning Eigenmodes. ACM Trans. Graph. 42(4): 106:1-106:21 (2023) - [j66]Hsueh-Ti Derek Liu, Mark Gillespie, Benjamin Chislett, Nicholas Sharp, Alec Jacobson, Keenan Crane:
Surface Simplification using Intrinsic Error Metrics. ACM Trans. Graph. 42(4): 118:1-118:17 (2023) - [j65]Jiayi Eris Zhang, Jérémie Dumas, Yun (Raymond) Fei, Alec Jacobson, Doug L. James, Danny M. Kaufman:
Progressive Shell Qasistatics for Unstructured Meshes. ACM Trans. Graph. 42(6): 176:1-176:17 (2023) - [j64]Seungbae Bang, Kirill Serkh, Oded Stein, Alec Jacobson:
An Adaptive Fast-Multipole-Accelerated Hybrid Boundary Integral Equation Method for Accurate Diffusion Curves. ACM Trans. Graph. 42(6): 215:1-215:28 (2023) - [c35]Xiaochun Tong, Hsueh-Ti Derek Liu, Yotam I. Gingold, Alec Jacobson:
Differentiable Heightfield Path Tracing with Accelerated Discontinuities. SIGGRAPH (Conference Paper Track) 2023: 19:1-19:9 - [c34]Nicholas Sharp, Cristian Romero, Alec Jacobson, Etienne Vouga, Paul G. Kry, David I. W. Levin, Justin Solomon:
Data-Free Learning of Reduced-Order Kinematics. SIGGRAPH (Conference Paper Track) 2023: 40:1-40:9 - [c33]Yun-Chun Chen, Vladimir G. Kim, Noam Aigerman, Alec Jacobson:
Neural Progressive Meshes. SIGGRAPH (Conference Paper Track) 2023: 84:1-84:9 - [c32]Siqi Wang, Chenxi Liu, Daniele Panozzo, Denis Zorin, Alec Jacobson:
Bézier Spline Simplification Using Locally Integrated Error Metrics. SIGGRAPH Asia 2023: 27:1-27:11 - [c31]Silvia Sellán, Alec Jacobson:
Neural Stochastic Poisson Surface Reconstruction. SIGGRAPH Asia 2023: 74:1-74:9 - [c30]Towaki Takikawa, Thomas Müller, Merlin Nimier-David, Alex Evans, Sanja Fidler, Alec Jacobson, Alexander Keller:
Compact Neural Graphics Primitives with Learned Hash Probing. SIGGRAPH Asia 2023: 120:1-120:10 - [c29]Zoë Marschner, Silvia Sellán, Hsueh-Ti Derek Liu, Alec Jacobson:
Constructive Solid Geometry on Neural Signed Distance Fields. SIGGRAPH Asia 2023: 121:1-121:12 - [i48]Otman Benchekroun, Jiayi Eris Zhang, Siddhartha Chaudhuri, Eitan Grinspun, Yi Zhou, Alec Jacobson:
Fast Complementary Dynamics via Skinning Eigenmodes. CoRR abs/2303.11886 (2023) - [i47]Nicholas Sharp, Cristian Romero, Alec Jacobson, Etienne Vouga, Paul G. Kry, David I. W. Levin, Justin Solomon:
Data-Free Learning of Reduced-Order Kinematics. CoRR abs/2305.03846 (2023) - [i46]Hsueh-Ti Derek Liu, Mark Gillespie, Benjamin Chislett, Nicholas Sharp, Alec Jacobson, Keenan Crane:
Surface Simplification using Intrinsic Error Metrics. CoRR abs/2305.06410 (2023) - [i45]Yun-Chun Chen, Vladimir G. Kim, Noam Aigerman, Alec Jacobson:
Neural Progressive Meshes. CoRR abs/2308.05741 (2023) - [i44]Lily Goli, Cody Reading, Silvia Sellán, Alec Jacobson, Andrea Tagliasacchi:
Bayes' Rays: Uncertainty Quantification for Neural Radiance Fields. CoRR abs/2309.03185 (2023) - [i43]Oded Stein, Alec Jacobson, Fanny Chevalier:
The Effect of Smoothing on the Interpretation of Time Series Data: A COVID-19 Case Study. CoRR abs/2309.08018 (2023) - [i42]Silvia Sellán, Alec Jacobson:
Neural Stochastic Screened Poisson Reconstruction. CoRR abs/2309.11993 (2023) - [i41]Kunho Kim, Mikaela Angelina Uy, Despoina Paschalidou, Alec Jacobson, Leonidas J. Guibas, Minhyuk Sung:
OptCtrlPoints: Finding the Optimal Control Points for Biharmonic 3D Shape Deformation. CoRR abs/2309.12899 (2023) - [i40]Seungbae Bang, Kirill Serkh, Oded Stein, Alec Jacobson:
An Adaptive Fast-Multipole-Accelerated Hybrid Boundary Integral Equation Method for Accurate Diffusion Curves. CoRR abs/2311.14312 (2023) - [i39]Vikas Thamizharasan, Difan Liu, Shantanu Agarwal, Matthew Fisher, Michaël Gharbi, Oliver Wang, Alec Jacobson, Evangelos Kalogerakis:
VecFusion: Vector Font Generation with Diffusion. CoRR abs/2312.10540 (2023) - [i38]Towaki Takikawa, Thomas Müller, Merlin Nimier-David, Alex Evans, Sanja Fidler, Alec Jacobson, Alexander Keller:
Compact Neural Graphics Primitives with Learned Hash Probing. CoRR abs/2312.17241 (2023) - 2022
- [j63]Nicholas Sharp, Alec Jacobson:
Spelunking the deep: guaranteed queries on general neural implicit surfaces via range analysis. ACM Trans. Graph. 41(4): 107:1-107:16 (2022) - [j62]Jiayi Eris Zhang, Jérémie Dumas, Yun (Raymond) Fei, Alec Jacobson, Doug L. James, Danny M. Kaufman:
Progressive Simulation for Cloth Quasistatics. ACM Trans. Graph. 41(6): 218:1-218:16 (2022) - [j61]Silvia Sellán, Alec Jacobson:
Stochastic Poisson Surface Reconstruction. ACM Trans. Graph. 41(6): 227:1-227:12 (2022) - [j60]Marzia Riso, Giacomo Nazzaro, Enrico Puppo, Alec Jacobson, Qingnan Zhou, Fabio Pellacini:
BoolSurf: Boolean Operations on Surfaces. ACM Trans. Graph. 41(6): 247:1-247:13 (2022) - [c28]Yun-Chun Chen, Haoda Li, Dylan Turpin, Alec Jacobson, Animesh Garg:
Neural Shape Mating: Self-Supervised Object Assembly with Adversarial Shape Priors. CVPR 2022: 12714-12723 - [c27]Xinhao Cai, Eulalie Coevoet, Alec Jacobson, Paul G. Kry:
Active Learning Neural C-space Signed Distance Fields for Reduced Deformable Self-Collision. Graphics Interface 2022: 92-100 - [c26]Selena Ling, Nicholas Sharp, Alec Jacobson:
VectorAdam for Rotation Equivariant Geometry Optimization. NeurIPS 2022 - [c25]Silvia Sellán, Yun-Chun Chen, Ziyi Wu, Animesh Garg, Alec Jacobson:
Breaking Bad: A Dataset for Geometric Fracture and Reassembly. NeurIPS 2022 - [c24]Hsueh-Ti Derek Liu, Francis Williams, Alec Jacobson, Sanja Fidler, Or Litany:
Learning Smooth Neural Functions via Lipschitz Regularization. SIGGRAPH (Conference Paper Track) 2022: 31:1-31:13 - [c23]Towaki Takikawa, Alex Evans, Jonathan Tremblay, Thomas Müller, Morgan McGuire, Alec Jacobson, Sanja Fidler:
Variable Bitrate Neural Fields. SIGGRAPH (Conference Paper Track) 2022: 41:1-41:9 - [c22]Seungbae Bang, Kirill Serkh, Oded Stein, Alec Jacobson:
A Hybrid Boundary Element and Boundary Integral Equation Method for Accurate Diffusion Curves. SIGGRAPH Asia Technical Communications 2022: 16:1-16:4 - [c21]Yong Li, Shoaib Kamil, Alec Jacobson, Yotam I. Gingold:
H rtDown: Document Processor for Executable Linear Algebra Papers. SIGGRAPH Asia 2022: 51:1-51:8 - [c20]Sarah Anne Kushner, Paul H. Dietz, Alec Jacobson:
Interactive 3D Zoetrope with a Strobing Flashlight. UIST (Adjunct Volume) 2022: 83:1-83:3 - [i37]Nicholas Sharp, Alec Jacobson:
Spelunking the Deep: Guaranteed Queries for General Neural Implicit Surfaces. CoRR abs/2202.02444 (2022) - [i36]Hsueh-Ti Derek Liu, Francis Williams, Alec Jacobson, Sanja Fidler, Or Litany:
Learning Smooth Neural Functions via Lipschitz Regularization. CoRR abs/2202.08345 (2022) - [i35]Selena Ling, Nicholas Sharp, Alec Jacobson:
VectorAdam for Rotation Equivariant Geometry Optimization. CoRR abs/2205.13599 (2022) - [i34]Yun-Chun Chen, Haoda Li, Dylan Turpin, Alec Jacobson, Animesh Garg:
Neural Shape Mating: Self-Supervised Object Assembly with Adversarial Shape Priors. CoRR abs/2205.14886 (2022) - [i33]Towaki Takikawa, Alex Evans, Jonathan Tremblay, Thomas Müller, Morgan McGuire, Alec Jacobson, Sanja Fidler:
Variable Bitrate Neural Fields. CoRR abs/2206.07707 (2022) - [i32]Silvia Sellán, Alec Jacobson:
Stochastic Poisson Surface Reconstruction. CoRR abs/2206.15236 (2022) - [i31]Silvia Sellán, Yun-Chun Chen, Ziyi Wu, Animesh Garg, Alec Jacobson:
Breaking Bad: A Dataset for Geometric Fracture and Reassembly. CoRR abs/2210.11463 (2022) - 2021
- [j59]Josef Graus, Alec Jacobson, Yotam I. Gingold:
Interacting with Self-Similarity. Comput. Aided Des. 130: 102931 (2021) - [j58]Vismay Modi, Lawson Fulton, Alec Jacobson, Shinjiro Sueda, David I. W. Levin:
EMU: Efficient Muscle Simulation in Deformation Space. Comput. Graph. Forum 40(1): 234-248 (2021) - [j57]Jiayi Eris Zhang, Alec Jacobson, Marc Alexa:
Fast Updates for Least-Squares Rotational Alignment. Comput. Graph. Forum 40(2): 13-22 (2021) - [j56]Sarah Anne Kushner, Risa Ulinski, Karan Singh, David I. W. Levin, Alec Jacobson:
Levitating Rigid Objects with Hidden Rods and Wires. Comput. Graph. Forum 40(2): 221-230 (2021) - [j55]Hsueh-Ti Derek Liu, Alec Jacobson:
Normal-Driven Spherical Shape Analogies. Comput. Graph. Forum 40(5): 45-55 (2021) - [j54]Silvia Sellán, Noam Aigerman, Alec Jacobson:
Swept volumes via spacetime numerical continuation. ACM Trans. Graph. 40(4): 55:1-55:11 (2021) - [j53]Hsueh-Ti Derek Liu, Jiayi Eris Zhang, Mirela Ben-Chen, Alec Jacobson:
Surface multigrid via intrinsic prolongation. ACM Trans. Graph. 40(4): 80:1-80:13 (2021) - [j52]Rinat Abdrashitov, Seungbae Bang, David I. W. Levin, Karan Singh, Alec Jacobson:
Interactive modelling of volumetric musculoskeletal anatomy. ACM Trans. Graph. 40(4): 122:1-122:13 (2021) - [j51]Baptiste Nicolet, Alec Jacobson, Wenzel Jakob:
Large steps in inverse rendering of geometry. ACM Trans. Graph. 40(6): 248:1-248:13 (2021) - [j50]Yong Li, Shoaib Kamil, Alec Jacobson, Yotam I. Gingold:
I♥LA: compilable markdown for linear algebra. ACM Trans. Graph. 40(6): 264:1-264:14 (2021) - [c19]Ludwig Wilhelm Wall, Alec Jacobson, Daniel Vogel, Oliver S. Schneider:
Scrappy: Using Scrap Material as Infill to Make Fabrication More Sustainable. CHI 2021: 665:1-665:12 - [c18]Towaki Takikawa, Joey Litalien, Kangxue Yin, Karsten Kreis, Charles T. Loop, Derek Nowrouzezahrai, Alec Jacobson, Morgan McGuire, Sanja Fidler:
Neural Geometric Level of Detail: Real-Time Rendering With Implicit 3D Shapes. CVPR 2021: 11358-11367 - [c17]Josh Holinaty, Alec Jacobson, Fanny Chevalier:
Supporting Reference Imagery for Digital Drawing. ICCVW 2021: 2434-2442 - [i30]Towaki Takikawa, Joey Litalien, Kangxue Yin, Karsten Kreis, Charles T. Loop, Derek Nowrouzezahrai, Alec Jacobson, Morgan McGuire, Sanja Fidler:
Neural Geometric Level of Detail: Real-time Rendering with Implicit 3D Shapes. CoRR abs/2101.10994 (2021) - [i29]Hsueh-Ti Derek Liu, Alec Jacobson:
Normal-Driven Spherical Shape Analogies. CoRR abs/2104.11993 (2021) - [i28]Hsueh-Ti Derek Liu, Jiayi Eris Zhang, Mirela Ben-Chen, Alec Jacobson:
Surface Multigrid via Intrinsic Prolongation. CoRR abs/2104.13755 (2021) - [i27]Rinat Abdrashitov, Seungbae Bang, David I. W. Levin, Karan Singh, Alec Jacobson:
Interactive Modelling of Volumetric Musculoskeletal Anatomy. CoRR abs/2106.05161 (2021) - [i26]Yong Li, Shoaib Kamil, Alec Jacobson, Yotam I. Gingold:
I$\heartsuit$LA: Compilable Markdown for Linear Algebra. CoRR abs/2109.13001 (2021) - [i25]Silvia Sellán, Jack Luong, Leticia Mattos Da Silva, Aravind Ramakrishnan, Yuchuan Yang, Alec Jacobson:
Breaking Good: Fracture Modes for Realtime Destruction. CoRR abs/2111.05249 (2021) - 2020
- [j49]Thibault Lescoat, Hsueh-Ti Derek Liu, Jean-Marc Thiery, Alec Jacobson, Tamy Boubekeur, Maks Ovsjanikov:
Spectral Mesh Simplification. Comput. Graph. Forum 39(2): 315-324 (2020) - [j48]Oded Stein, Max Wardetzky, Alec Jacobson, Eitan Grinspun:
A Simple Discretization of the Vector Dirichlet Energy. Comput. Graph. Forum 39(5): 81-92 (2020) - [j47]Rinat Abdrashitov, Alec Jacobson, Karan Singh:
A System for Efficient 3D Printed Stop-motion Face Animation. ACM Trans. Graph. 39(1): 1:1-1:11 (2020) - [j46]Oded Stein, Alec Jacobson, Max Wardetzky, Eitan Grinspun:
A Smoothness Energy without Boundary Distortion for Curved Surfaces. ACM Trans. Graph. 39(3): 18:1-18:17 (2020) - [j45]Silvia Sellán, Noam Aigerman, Alec Jacobson:
Developability of heightfields via rank minimization. ACM Trans. Graph. 39(4): 109 (2020) - [j44]Hsueh-Ti Derek Liu, Vladimir G. Kim, Siddhartha Chaudhuri, Noam Aigerman, Alec Jacobson:
Neural subdivision. ACM Trans. Graph. 39(4): 124 (2020) - [j43]Jiayi Eris Zhang, Seungbae Bang, David I. W. Levin, Alec Jacobson:
Complementary dynamics. ACM Trans. Graph. 39(6): 179:1-179:11 (2020) - [j42]Silvia Sellán, Jacob Kesten, Ang Yan Sheng, Alec Jacobson:
Opening and closing surfaces. ACM Trans. Graph. 39(6): 198:1-198:13 (2020) - [j41]Honglin Chen, Hsueh-Ti Derek Liu, Alec Jacobson, David I. W. Levin:
Chordal decomposition for spectral coarsening. ACM Trans. Graph. 39(6): 265:1-265:16 (2020) - [c16]Jun Gao, Wenzheng Chen, Tommy Xiang, Alec Jacobson, Morgan McGuire, Sanja Fidler:
Learning Deformable Tetrahedral Meshes for 3D Reconstruction. NeurIPS 2020 - [e1]David I. W. Levin, Fanny Chevalier, Alec Jacobson:
Proceedings of the 46th Graphics Interface Conference 2020, Toronto, ON, Canada, May 28-29, 2020. Canadian Human-Computer Communications Society 2020, ISBN 978-0-9947868-5-2 [contents] - [i24]Timothy Jeruzalski, David I. W. Levin, Alec Jacobson, Paul Lalonde, Mohammad Norouzi, Andrea Tagliasacchi:
NiLBS: Neural Inverse Linear Blend Skinning. CoRR abs/2004.05980 (2020) - [i23]Sarah Anne Kushner, Risa Ulinski, Karan Singh, David I. W. Levin, Alec Jacobson:
Levitating Rigid Objects with Hidden Support Structures. CoRR abs/2005.00074 (2020) - [i22]Hsueh-Ti Derek Liu, Vladimir G. Kim, Siddhartha Chaudhuri, Noam Aigerman, Alec Jacobson:
Neural Subdivision. CoRR abs/2005.01819 (2020) - [i21]Alec Jacobson:
Least-Squares Affine Reflection Using Eigen Decomposition. CoRR abs/2006.06080 (2020) - [i20]Vismay Modi, Lawson Fulton, Shinjiro Sueda, Alec Jacobson, David I. W. Levin:
EMu: Efficient Muscle Simulation In Deformation Space. CoRR abs/2006.08821 (2020) - [i19]Honglin Chen, Hsueh-Ti Derek Liu, Alec Jacobson, David I. W. Levin:
Chordal Decomposition for Spectral Coarsening. CoRR abs/2009.02294 (2020) - [i18]Jiayi Eris Zhang, Seungbae Bang, David I. W. Levin, Alec Jacobson:
Complementary Dynamics. CoRR abs/2009.02462 (2020) - [i17]Thomas Davies, Derek Nowrouzezahrai, Alec Jacobson:
Overfit Neural Networks as a Compact Shape Representation. CoRR abs/2009.09808 (2020) - [i16]Jun Gao, Wenzheng Chen, Tommy Xiang, Clement Fuji Tsang, Alec Jacobson, Morgan McGuire, Sanja Fidler:
Learning Deformable Tetrahedral Meshes for 3D Reconstruction. CoRR abs/2011.01437 (2020) - [i15]Abhishek Madan, Alec Jacobson, David I. W. Levin:
Diffusion Structures for Architectural Stripe Pattern Generation. CoRR abs/2011.05550 (2020)
2010 – 2019
- 2019
- [j40]Oded Stein, Alec Jacobson, Eitan Grinspun:
Interactive design of castable shapes using two-piece rigid molds. Comput. Graph. 80: 51-62 (2019) - [j39]Silvia Sellán, Herng Yi Cheng, Yuming Ma, Mitchell Dembowski, Alec Jacobson:
Solid Geometry Processing on Deconstructed Domains. Comput. Graph. Forum 38(1): 564-579 (2019) - [j38]Lawson Fulton, Vismay Modi, David Duvenaud, David I. W. Levin, Alec Jacobson:
Latent-space Dynamics for Reduced Deformable Simulation. Comput. Graph. Forum 38(2): 379-391 (2019) - [j37]Alec Jacobson:
RodSteward: A Design-to-Assembly System for Fabrication using 3D-Printed Joints and Precision-Cut Rods. Comput. Graph. Forum 38(7): 765-774 (2019) - [j36]Yixin Hu, Teseo Schneider, Xifeng Gao, Qingnan Zhou, Alec Jacobson, Denis Zorin, Daniele Panozzo:
TriWild: robust triangulation with curve constraints. ACM Trans. Graph. 38(4): 52:1-52:15 (2019) - [j35]Hsueh-Ti Derek Liu, Alec Jacobson, Maks Ovsjanikov:
Spectral coarsening of geometric operators. ACM Trans. Graph. 38(4): 105:1-105:13 (2019) - [j34]Hsueh-Ti Derek Liu, Alec Jacobson:
Cubic stylization. ACM Trans. Graph. 38(6): 197:1-197:10 (2019) - [j33]Dario Seyb, Alec Jacobson, Derek Nowrouzezahrai, Wojciech Jarosz:
Non-linear sphere tracing for rendering deformed signed distance fields. ACM Trans. Graph. 38(6): 229:1-229:12 (2019) - [c15]Daniele Panozzo, Alec Jacobson:
libigl: Prototyping Geometry Processing Research in C++. Eurographics (Tutorials) 2019: 45 - [c14]Hsueh-Ti Derek Liu, Michael Tao, Chun-Liang Li, Derek Nowrouzezahrai, Alec Jacobson:
Beyond Pixel Norm-Balls: Parametric Adversaries using an Analytically Differentiable Renderer. ICLR (Poster) 2019 - [c13]Wenzheng Chen, Huan Ling, Jun Gao, Edward J. Smith, Jaakko Lehtinen, Alec Jacobson, Sanja Fidler:
Learning to Predict 3D Objects with an Interpolation-based Differentiable Renderer. NeurIPS 2019: 9605-9616 - [c12]Rahul Arora, Alec Jacobson, Timothy R. Langlois, Yijiang Huang, Caitlin Tobin Mueller, Wojciech Matusik, Ariel Shamir, Karan Singh, David I. W. Levin:
Volumetric Michell trusses for parametric design & fabrication. SCF 2019: 6:1-6:13 - [i14]Hsueh-Ti Derek Liu, Alec Jacobson, Maks Ovsjanikov:
Spectral Coarsening of Geometric Operators. CoRR abs/1905.05161 (2019) - [i13]Oded Stein, Alec Jacobson, Max Wardetzky, Eitan Grinspun:
A Smoothness Energy without Boundary Distortion for Curved Surfaces. CoRR abs/1905.09777 (2019) - [i12]Alec Jacobson:
RodSteward: A Design-to-Assembly System for Fabrication using 3D-Printed Joints and Precision-Cut Rods. CoRR abs/1906.05710 (2019) - [i11]Rinat Abdrashitov, Alec Jacobson, Karan Singh:
A system for efficient 3D printed stop-motion face animation. CoRR abs/1907.10163 (2019) - [i10]Wenzheng Chen, Jun Gao, Huan Ling, Edward J. Smith, Jaakko Lehtinen, Alec Jacobson, Sanja Fidler:
Learning to Predict 3D Objects with an Interpolation-based Differentiable Renderer. CoRR abs/1908.01210 (2019) - [i9]Hsueh-Ti Derek Liu, Alec Jacobson:
Cubic Stylization. CoRR abs/1910.02926 (2019) - [i8]Oded Stein, Eitan Grinspun, Alec Jacobson, Max Wardetzky:
A mixed finite element method with piecewise linear elements for the biharmonic equation on surfaces. CoRR abs/1911.08029 (2019) - 2018
- [j32]Qingnan Zhou, Alec Jacobson:
2018 Cover Image: Thingi10K. Comput. Graph. Forum 37(1): 451-452 (2018) - [j31]Timothy Jeruzalski, John Kanji, Alec Jacobson, David I. W. Levin:
Collision-Aware and Online Compression of Rigid Body Simulations via Integrated Error Minimization. Comput. Graph. Forum 37(8): 11-20 (2018) - [j30]Oded Stein, Eitan Grinspun, Max Wardetzky, Alec Jacobson:
Natural Boundary Conditions for Smoothing in Geometry Processing. ACM Trans. Graph. 37(2): 23 (2018) - [j29]Gavin Barill, Neil G. Dickson, Ryan M. Schmidt, David I. W. Levin, Alec Jacobson:
Fast winding numbers for soups and clouds. ACM Trans. Graph. 37(4): 43 (2018) - [j28]Yixin Hu, Qingnan Zhou, Xifeng Gao, Alec Jacobson, Denis Zorin, Daniele Panozzo:
Tetrahedral meshing in the wild. ACM Trans. Graph. 37(4): 60 (2018) - [j27]Hsueh-Ti Derek Liu, Michael Tao, Alec Jacobson:
Paparazzi: surface editing by way of multi-view image processing. ACM Trans. Graph. 37(6): 221 (2018) - [c11]Alec Jacobson:
Session details: Session G2: Geometry & Style. Graphics Interface 2018 - [c10]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 - [c9]Silvia Sellán, Herng Yi Cheng, Yuming Ma, Mitchell Dembowski, Alec Jacobson:
Solving PDEs on Deconstructed Domains. SGP (Posters) 2018: 7-8 - [i7]Silvia Sellán, Herng Yi Cheng, Yuming Ma, Mitchell Dembowski, Alec Jacobson:
Solid Geometry Processing on Deconstructed Domains. CoRR abs/1807.00866 (2018) - [i6]Hsueh-Ti Derek Liu, Michael Tao, Chun-Liang Li, Derek Nowrouzezahrai, Alec Jacobson:
Adversarial Geometry and Lighting using a Differentiable Renderer. CoRR abs/1808.02651 (2018) - [i5]Rahul Arora, Alec Jacobson, Timothy R. Langlois, Yijiang Huang, Caitlin Tobin Mueller, Wojciech Matusik, Ariel Shamir, Karan Singh, David I. W. Levin:
Designing Volumetric Truss Structures. CoRR abs/1810.00706 (2018) - 2017
- [j26]Alec Jacobson:
Generalized Matryoshka: Computational Design of Nesting Objects. Comput. Graph. Forum 36(5): 27-35 (2017) - [j25]Hsueh-Ti Derek Liu, Alec Jacobson, Keenan Crane:
A Dirac Operator for Extrinsic Shape Analysis. Comput. Graph. Forum 36(5): 139-149 (2017) - [j24]Oliver Glauser, Benedek Vartok, Wan-Chun Ma, Daniele Panozzo, Alec Jacobson, Cédric Pradalier, Otmar Hilliges, Olga Sorkine-Hornung:
Rig animation with a tangible and modular input device. Interactions 24(2): 16-17 (2017) - [j23]Songrun Liu, Zachary Ferguson, Alec Jacobson, Yotam I. Gingold:
Seamless: seam erasure and seam-aware decoupling of shape from mesh resolution. ACM Trans. Graph. 36(6): 216:1-216:15 (2017) - [c8]Timothy Jeruzalski, Eugene Fiume, Alec Jacobson, David I. W. Levin:
Online compression of rigid body simulations using physics-inspired interpolation. Symposium on Computer Animation 2017: 26:1-26:2 - [c7]Alec Jacobson, Daniele Panozzo:
libigl: prototyping geometry processing research in C++. SIGGRAPH ASIA (Courses) 2017: 11:1-11:172 - [i4]Oded Stein, Eitan Grinspun, Max Wardetzky, Alec Jacobson:
Natural Boundary Conditions for Smoothing in Geometry Processing. CoRR abs/1707.04348 (2017) - 2016
- [j22]Romain Prévost, Alec Jacobson, Wojciech Jarosz, Olga Sorkine-Hornung:
Large-scale painting of photographs by interactive optimization. Comput. Graph. 55: 108-117 (2016) - [j21]Jean-Charles Bazin, Claudia Plüss, G. Yu, Tobias Martin, Alec Jacobson, Markus H. Gross:
Physically Based Video Editing. Comput. Graph. Forum 35(7): 421-429 (2016) - [j20]Qingnan Zhou, Eitan Grinspun, Denis Zorin, Alec Jacobson:
Mesh arrangements for solid geometry. ACM Trans. Graph. 35(4): 39:1-39:15 (2016) - [j19]Akash Garg, Alec Jacobson, Eitan Grinspun:
Computational design of reconfigurables. ACM Trans. Graph. 35(4): 90:1-90:14 (2016) - [j18]Oliver Glauser, Wan-Chun Ma, Alec Jacobson, Daniele Panozzo, Otmar Hilliges, Olga Sorkine-Hornung:
Rig animation with a tangible and modular input device. ACM Trans. Graph. 35(4): 144:1-144:11 (2016) - [c6]Oliver Glauser, Benedek Vartok, Wan-Chun Ma, Daniele Panozzo, Alec Jacobson, Otmar Hilliges, Olga Sorkine-Hornung:
Rig Animation with a Tangible and Modular Input Device. UIST (Adjunct Volume) 2016: 35-36 - [i3]Alec Jacobson:
Boolean Operations using Generalized Winding Numbers. CoRR abs/1601.07953 (2016) - [i2]Qingnan Zhou, Alec Jacobson:
Thingi10K: A Dataset of 10, 000 3D-Printing Models. CoRR abs/1605.04797 (2016) - 2015
- [j17]Alec Jacobson:
Breathing Life into Shapes. IEEE Computer Graphics and Applications 35(5): 92-100 (2015) - [j16]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) - [j15]Leonardo Sacht, Etienne Vouga, Alec Jacobson:
Nested cages. ACM Trans. Graph. 34(6): 170:1-170:14 (2015) - 2014
- [j14]Alec Jacobson, Ilya Baran, Jovan Popovic, Olga Sorkine-Hornung:
Bounded biharmonic weights for real-time deformation. Commun. ACM 57(4): 99-106 (2014) - [j13]Daniel Sýkora, Ladislav Kavan, Martin Cadík, Ondrej Jamriska, Alec Jacobson, Brian Whited, Maryann Simmons, Olga Sorkine-Hornung:
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]Alec Jacobson, Daniele Panozzo, Oliver Glauser, Cédric Pradalier, Otmar Hilliges, Olga Sorkine-Hornung:
Tangible and modular input device for character articulation. ACM Trans. Graph. 33(4): 82:1-82:12 (2014) - [j11]Alec Jacobson:
Skinning cubic Bézier splines and Catmull-Clark subdivision surfaces. ACM Trans. Graph. 33(6): 190:1-190:9 (2014) - [j10]David Günther, Alec Jacobson, Jan Reininghaus, Hans-Peter Seidel, Olga Sorkine-Hornung, Tino Weinkauf:
Fast and Memory-Efficienty Topological Denoising of 2D and 3D Scalar Fields. IEEE Trans. Vis. Comput. Graph. 20(12): 2585-2594 (2014) - [c5]Alec Jacobson, Yotam I. Gingold:
Skinning: real-time shape deformation. SIGGRAPH ASIA Courses 2014: 19:1 - [c4]Alec Jacobson, Zhigang Deng, Ladislav Kavan, John P. Lewis:
Skinning: real-time shape deformation. SIGGRAPH Courses 2014: 24:1 - [c3]Alec Jacobson, Daniele Panozzo, Oliver Glauser, Cédric Pradalier, Otmar Hilliges, Olga Sorkine-Hornung:
Tangible and modular input device for character articulation. SIGGRAPH Emerging Technologies 2014: 24:1 - [c2]Alec Jacobson, Daniele Panozzo, Oliver Glauser, Cédric Pradalier, Otmar Hilliges, Olga Sorkine-Hornung:
Tangible and modular input device for character articulation. SIGGRAPH Studio 2014: 42:1 - [c1]Alec Jacobson, Daniele Panozzo, Oliver Glauser, Cédric Pradalier, Otmar Hilliges, Olga Sorkine-Hornung:
Tangible and modular input device for character articulation. UIST (Adjunct Volume) 2014: 45-46 - [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
- [b1]Alec Jacobson:
Algorithms and Interfaces for Real-Time Deformation of 2D and 3D Shapes. ETH Zurich, Zürich, Switzerland, 2013 - [j9]Leonardo Sacht, Alec Jacobson, Daniele Panozzo, Christian Schüller, Olga Sorkine-Hornung:
Consistent Volumetric Discretizations Inside Self-Intersecting Surfaces. Comput. Graph. Forum 32(5): 147-156 (2013) - [j8]Alec Jacobson:
Bijective Mappings with Generalized Barycentric Coordinates: A Counterexample. J. Graph. Tools 17(1-2): 1-4 (2013) - [j7]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) - 2012
- [j6]Alec Jacobson, Tino Weinkauf, Olga Sorkine:
Smooth Shape-Aware Functions with Controlled Extrema. Comput. Graph. Forum 31(5): 1577-1586 (2012) - [j5]Alec Jacobson, Ilya Baran, Ladislav Kavan, Jovan Popovic, Olga Sorkine:
Fast automatic skinning transformations. ACM Trans. Graph. 31(4): 77:1-77:10 (2012) - [j4]Kaan Yücer, Alec Jacobson, Alexander Hornung, Olga Sorkine:
Transfusive image manipulation. ACM Trans. Graph. 31(6): 176:1-176:9 (2012) - 2011
- [j3]Alec Jacobson, Ilya Baran, Jovan Popovic, Olga Sorkine:
Bounded biharmonic weights for real-time deformation. ACM Trans. Graph. 30(4): 78 (2011) - [j2]Alec Jacobson, Olga Sorkine:
Stretchable and Twistable Bones for Skeletal Shape Deformation. ACM Trans. Graph. 30(6): 165 (2011) - 2010
- [j1]Alec Jacobson, Elif Tosun, Olga Sorkine, Denis Zorin:
Mixed Finite Elements for Variational Surface Modeling. Comput. Graph. Forum 29(5): 1565-1574 (2010)
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-10-09 20:32 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
