default search action
Thomas A. Funkhouser
Person information
- affiliation: Princeton University, USA
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2020 – today
- 2024
- [c94]Christian Diller, Thomas A. Funkhouser, Angela Dai:
FutureHuman3D: Forecasting Complex Long-Term 3D Human Behavior from Video Observations. CVPR 2024: 19902-19914 - [i63]Zihao Xiao, Longlong Jing, Shangxuan Wu, Alex Zihao Zhu, Jingwei Ji, Chiyu Max Jiang, Wei-Chih Hung, Thomas A. Funkhouser, Weicheng Kuo, Anelia Angelova, Yin Zhou, Shiwei Sheng:
3D Open-Vocabulary Panoptic Segmentation with 2D-3D Vision-Language Distillation. CoRR abs/2401.02402 (2024) - 2023
- [j57]Jimmy Wu, Rika Antonova, Adam Kan, Marion Lepert, Andy Zeng, Shuran Song, Jeannette Bohg, Szymon Rusinkiewicz, Thomas A. Funkhouser:
TidyBot: personalized robot assistance with large language models. Auton. Robots 47(8): 1087-1102 (2023) - [j56]Hong-Xing Yu, Michelle Guo, Alireza Fathi, Yen-Yu Chang, Eric Ryan Chan, Ruohan Gao, Thomas A. Funkhouser, Jiajun Wu:
Learning Object-Centric Neural Scattering Functions for Free-viewpoint Relighting and Scene Composition. Trans. Mach. Learn. Res. 2023 (2023) - [c93]Songyou Peng, Kyle Genova, Chiyu Max Jiang, Andrea Tagliasacchi, Marc Pollefeys, Thomas A. Funkhouser:
OpenScene: 3D Scene Understanding with Open Vocabularies. CVPR 2023: 815-824 - [c92]Xiaoshuai Zhang, Abhijit Kundu, Thomas A. Funkhouser, Leonidas J. Guibas, Hao Su, Kyle Genova:
Nerflets: Local Radiance Fields for Efficient Structure-Aware 3D Scene Representation from 2D Supervision. CVPR 2023: 8274-8284 - [c91]Zhiqin Chen, Thomas A. Funkhouser, Peter Hedman, Andrea Tagliasacchi:
MobileNeRF: Exploiting the Polygon Rasterization Pipeline for Efficient Neural Field Rendering on Mobile Architectures. CVPR 2023: 16569-16578 - [c90]Fangyin Wei, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Clutter Detection and Removal in 3D Scenes with View-Consistent Inpainting. ICCV 2023: 18085-18095 - [c89]Jimmy Wu, Rika Antonova, Adam Kan, Marion Lepert, Andy Zeng, Shuran Song, Jeannette Bohg, Szymon Rusinkiewicz, Thomas A. Funkhouser:
TidyBot: Personalized Robot Assistance with Large Language Models. IROS 2023: 3546-3553 - [i62]Guandao Yang, Sagie Benaim, Varun Jampani, Kyle Genova, Jonathan T. Barron, Thomas A. Funkhouser, Bharath Hariharan, Serge J. Belongie:
Polynomial Neural Fields for Subband Decomposition and Manipulation. CoRR abs/2302.04862 (2023) - [i61]Xiaoshuai Zhang, Abhijit Kundu, Thomas A. Funkhouser, Leonidas J. Guibas, Hao Su, Kyle Genova:
Nerflets: Local Radiance Fields for Efficient Structure-Aware 3D Scene Representation from 2D Supervision. CoRR abs/2303.03361 (2023) - [i60]Hong-Xing Yu, Michelle Guo, Alireza Fathi, Yen-Yu Chang, Eric Ryan Chan, Ruohan Gao, Thomas A. Funkhouser, Jiajun Wu:
Learning Object-Centric Neural Scattering Functions for Free-viewpoint Relighting and Scene Composition. CoRR abs/2303.06138 (2023) - [i59]Fangyin Wei, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Clutter Detection and Removal in 3D Scenes with View-Consistent Inpainting. CoRR abs/2304.03763 (2023) - [i58]Jimmy Wu, Rika Antonova, Adam Kan, Marion Lepert, Andy Zeng, Shuran Song, Jeannette Bohg, Szymon Rusinkiewicz, Thomas A. Funkhouser:
TidyBot: Personalized Robot Assistance with Large Language Models. CoRR abs/2305.05658 (2023) - [i57]Yushi Lan, Feitong Tan, Di Qiu, Qiangeng Xu, Kyle Genova, Zeng Huang, Sean Fanello, Rohit Pandey, Thomas A. Funkhouser, Chen Change Loy, Yinda Zhang:
Gaussian3Diff: 3D Gaussian Diffusion for 3D Full Head Synthesis and Editing. CoRR abs/2312.03763 (2023) - 2022
- [j55]Andy Zeng, Shuran Song, Kuan-Ting Yu, Elliott Donlon, Francois Robert Hogan, Maria Bauzá, Daolin Ma, Orion Taylor, Melody Liu, Eudald Romo, Nima Fazeli, Ferran Alet, Nikhil Chavan Dafle, Rachel M. Holladay, Isabella Morona, Prem Qu Nair, Druck Green, Ian H. Taylor, Weber Liu, Thomas A. Funkhouser, Alberto Rodriguez:
Robotic pick-and-place of novel objects in clutter with multi-affordance grasping and cross-domain image matching. Int. J. Robotics Res. 41(7): 690-705 (2022) - [j54]Jimmy Wu, Xingyuan Sun, Andy Zeng, Shuran Song, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Learning Pneumatic Non-Prehensile Manipulation With a Mobile Blower. IEEE Robotics Autom. Lett. 7(3): 8471-8478 (2022) - [j53]Zhiqin Chen, Andrea Tagliasacchi, Thomas A. Funkhouser, Hao Zhang:
Neural dual contouring. ACM Trans. Graph. 41(4): 104:1-104:13 (2022) - [c88]Mehdi S. M. Sajjadi, Henning Meyer, Etienne Pot, Urs Bergmann, Klaus Greff, Noha Radwan, Suhani Vora, Mario Lucic, Daniel Duckworth, Alexey Dosovitskiy, Jakob Uszkoreit, Thomas A. Funkhouser, Andrea Tagliasacchi:
Scene Representation Transformer: Geometry-Free Novel View Synthesis Through Set-Latent Scene Representations. CVPR 2022: 6219-6228 - [c87]Abhijit Kundu, Kyle Genova, Xiaoqi Yin, Alireza Fathi, Caroline Pantofaru, Leonidas J. Guibas, Andrea Tagliasacchi, Frank Dellaert, Thomas A. Funkhouser:
Panoptic Neural Fields: A Semantic Object-Aware Neural Scene Representation. CVPR 2022: 12861-12871 - [c86]Konstantinos Rematas, Andrew Liu, Pratul P. Srinivasan, Jonathan T. Barron, Andrea Tagliasacchi, Thomas A. Funkhouser, Vittorio Ferrari:
Urban Radiance Fields. CVPR 2022: 12922-12932 - [c85]Christian Diller, Thomas A. Funkhouser, Angela Dai:
Forecasting Characteristic 3D Poses of Human Actions. CVPR 2022: 15893-15902 - [c84]Guandao Yang, Sagie Benaim, Varun Jampani, Kyle Genova, Jonathan T. Barron, Thomas A. Funkhouser, Bharath Hariharan, Serge J. Belongie:
Polynomial Neural Fields for Subband Decomposition and Manipulation. NeurIPS 2022 - [i56]Zhiqin Chen, Andrea Tagliasacchi, Thomas A. Funkhouser, Hao Zhang:
Neural Dual Contouring. CoRR abs/2202.01999 (2022) - [i55]Jimmy Wu, Xingyuan Sun, Andy Zeng, Shuran Song, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Learning Pneumatic Non-Prehensile Manipulation with a Mobile Blower. CoRR abs/2204.02390 (2022) - [i54]Abhijit Kundu, Kyle Genova, Xiaoqi Yin, Alireza Fathi, Caroline Pantofaru, Leonidas J. Guibas, Andrea Tagliasacchi, Frank Dellaert, Thomas A. Funkhouser:
Panoptic Neural Fields: A Semantic Object-Aware Neural Scene Representation. CoRR abs/2205.04334 (2022) - [i53]Zhiqin Chen, Thomas A. Funkhouser, Peter Hedman, Andrea Tagliasacchi:
MobileNeRF: Exploiting the Polygon Rasterization Pipeline for Efficient Neural Field Rendering on Mobile Architectures. CoRR abs/2208.00277 (2022) - [i52]Christian Diller, Thomas A. Funkhouser, Angela Dai:
Forecasting Actions and Characteristic 3D Poses. CoRR abs/2211.14309 (2022) - [i51]Songyou Peng, Kyle Genova, Chiyu Max Jiang, Andrea Tagliasacchi, Marc Pollefeys, Thomas A. Funkhouser:
OpenScene: 3D Scene Understanding with Open Vocabularies. CoRR abs/2211.15654 (2022) - 2021
- [c83]Kyle Genova, Xiaoqi Yin, Abhijit Kundu, Caroline Pantofaru, Forrester Cole, Avneesh Sud, Brian Brewington, Brian Shucker, Thomas A. Funkhouser:
Learning 3D Semantic Segmentation with only 2D Image Supervision. 3DV 2021: 361-372 - [c82]Qianqian Wang, Zhicheng Wang, Kyle Genova, Pratul P. Srinivasan, Howard Zhou, Jonathan T. Barron, Ricardo Martin-Brualla, Noah Snavely, Thomas A. Funkhouser:
IBRNet: Learning Multi-View Image-Based Rendering. CVPR 2021: 4690-4699 - [c81]Siyan Dong, Qingnan Fan, He Wang, Ji Shi, Li Yi, Thomas A. Funkhouser, Baoquan Chen, Leonidas J. Guibas:
Robust Neural Routing Through Space Partitions for Camera Relocalization in Dynamic Indoor Environments. CVPR 2021: 8544-8554 - [c80]Li Yi, Boqing Gong, Thomas A. Funkhouser:
Complete & Label: A Domain Adaptation Approach to Semantic Segmentation of LiDAR Point Clouds. CVPR 2021: 15363-15373 - [c79]Yunze Liu, Qingnan Fan, Shanghang Zhang, Hao Dong, Thomas A. Funkhouser, Li Yi:
Contrastive Multimodal Fusion with TupleInfoNCE. ICCV 2021: 734-743 - [c78]Zhang Chen, Yinda Zhang, Kyle Genova, Sean Ryan Fanello, Sofien Bouaziz, Christian Häne, Ruofei Du, Cem Keskin, Thomas A. Funkhouser, Danhang Tang:
Multiresolution Deep Implicit Functions for 3D Shape Representation. ICCV 2021: 13067-13076 - [c77]Jimmy Wu, Xingyuan Sun, Andy Zeng, Shuran Song, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Spatial Intention Maps for Multi-Agent Mobile Manipulation. ICRA 2021: 8749-8756 - [c76]Boyang Deng, Charles R. Qi, Mahyar Najibi, Thomas A. Funkhouser, Yin Zhou, Dragomir Anguelov:
Revisiting 3D Object Detection From an Egocentric Perspective. NeurIPS 2021: 26066-26079 - [i50]Qianqian Wang, Zhicheng Wang, Kyle Genova, Pratul P. Srinivasan, Howard Zhou, Jonathan T. Barron, Ricardo Martin-Brualla, Noah Snavely, Thomas A. Funkhouser:
IBRNet: Learning Multi-View Image-Based Rendering. CoRR abs/2102.13090 (2021) - [i49]Jimmy Wu, Xingyuan Sun, Andy Zeng, Shuran Song, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Spatial Intention Maps for Multi-Agent Mobile Manipulation. CoRR abs/2103.12710 (2021) - [i48]Yunze Liu, Qingnan Fan, Shanghang Zhang, Hao Dong, Thomas A. Funkhouser, Li Yi:
Contrastive Multimodal Fusion with TupleInfoNCE. CoRR abs/2107.02575 (2021) - [i47]Zhang Chen, Yinda Zhang, Kyle Genova, Sean Ryan Fanello, Sofien Bouaziz, Christian Häne, Ruofei Du, Cem Keskin, Thomas A. Funkhouser, Danhang Tang:
Multiresolution Deep Implicit Functions for 3D Shape Representation. CoRR abs/2109.05591 (2021) - [i46]Kyle Genova, Xiaoqi Yin, Abhijit Kundu, Caroline Pantofaru, Forrester Cole, Avneesh Sud, Brian Brewington, Brian Shucker, Thomas A. Funkhouser:
Learning 3D Semantic Segmentation with only 2D Image Supervision. CoRR abs/2110.11325 (2021) - [i45]Mehdi S. M. Sajjadi, Henning Meyer, Etienne Pot, Urs Bergmann, Klaus Greff, Noha Radwan, Suhani Vora, Mario Lucic, Daniel Duckworth, Alexey Dosovitskiy, Jakob Uszkoreit, Thomas A. Funkhouser, Andrea Tagliasacchi:
Scene Representation Transformer: Geometry-Free Novel View Synthesis Through Set-Latent Scene Representations. CoRR abs/2111.13152 (2021) - [i44]Konstantinos Rematas, Andrew Liu, Pratul P. Srinivasan, Jonathan T. Barron, Andrea Tagliasacchi, Thomas A. Funkhouser, Vittorio Ferrari:
Urban Radiance Fields. CoRR abs/2111.14643 (2021) - [i43]Boyang Deng, Charles R. Qi, Mahyar Najibi, Thomas A. Funkhouser, Yin Zhou, Dragomir Anguelov:
Revisiting 3D Object Detection From an Egocentric Perspective. CoRR abs/2112.07787 (2021) - 2020
- [j52]Shuran Song, Andy Zeng, Johnny Lee, Thomas A. Funkhouser:
Grasping in the Wild: Learning 6DoF Closed-Loop Grasping From Low-Cost Demonstrations. IEEE Robotics Autom. Lett. 5(3): 4978-4985 (2020) - [j51]Andy Zeng, Shuran Song, Johnny Lee, Alberto Rodriguez, Thomas A. Funkhouser:
TossingBot: Learning to Throw Arbitrary Objects With Residual Physics. IEEE Trans. Robotics 36(4): 1307-1319 (2020) - [c75]Fangyin Wei, Elena Sizikova, Avneesh Sud, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Learning to Infer Semantic Parameters for 3D Shape Editing. 3DV 2020: 434-442 - [c74]Jingwei Huang, Justus Thies, Angela Dai, Abhijit Kundu, Chiyu Max Jiang, Leonidas J. Guibas, Matthias Nießner, Thomas A. Funkhouser:
Adversarial Texture Optimization From RGB-D Scans. CVPR 2020: 1556-1565 - [c73]Kyle Genova, Forrester Cole, Avneesh Sud, Aaron Sarna, Thomas A. Funkhouser:
Local Deep Implicit Functions for 3D Shape. CVPR 2020: 4856-4865 - [c72]Chiyu Max Jiang, Avneesh Sud, Ameesh Makadia, Jingwei Huang, Matthias Nießner, Thomas A. Funkhouser:
Local Implicit Grid Representations for 3D Scenes. CVPR 2020: 6000-6009 - [c71]Mahyar Najibi, Guangda Lai, Abhijit Kundu, Zhichao Lu, Vivek Rathod, Thomas A. Funkhouser, Caroline Pantofaru, David A. Ross, Larry S. Davis, Alireza Fathi:
DOPS: Learning to Detect 3D Objects and Predict Their 3D Shapes. CVPR 2020: 11910-11919 - [c70]Yue Wang, Alireza Fathi, Abhijit Kundu, David A. Ross, Caroline Pantofaru, Thomas A. Funkhouser, Justin Solomon:
Pillar-Based Object Detection for Autonomous Driving. ECCV (22) 2020: 18-34 - [c69]Rui Huang, Wanyue Zhang, Abhijit Kundu, Caroline Pantofaru, David A. Ross, Thomas A. Funkhouser, Alireza Fathi:
An LSTM Approach to Temporal 3D Object Detection in LiDAR Point Clouds. ECCV (18) 2020: 266-282 - [c68]Abhijit Kundu, Xiaoqi Yin, Alireza Fathi, David A. Ross, Brian Brewington, Thomas A. Funkhouser, Caroline Pantofaru:
Virtual Multi-view Fusion for 3D Semantic Segmentation. ECCV (24) 2020: 518-535 - [c67]Jimmy Wu, Xingyuan Sun, Andy Zeng, Shuran Song, Johnny Lee, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Spatial Action Maps for Mobile Manipulation. Robotics: Science and Systems 2020 - [i42]Jingwei Huang, Justus Thies, Angela Dai, Abhijit Kundu, Chiyu Max Jiang, Leonidas J. Guibas, Matthias Nießner, Thomas A. Funkhouser:
Adversarial Texture Optimization from RGB-D Scans. CoRR abs/2003.08400 (2020) - [i41]Chiyu Max Jiang, Avneesh Sud, Ameesh Makadia, Jingwei Huang, Matthias Nießner, Thomas A. Funkhouser:
Local Implicit Grid Representations for 3D Scenes. CoRR abs/2003.08981 (2020) - [i40]Mahyar Najibi, Guangda Lai, Abhijit Kundu, Zhichao Lu, Vivek Rathod, Thomas A. Funkhouser, Caroline Pantofaru, David A. Ross, Larry S. Davis, Alireza Fathi:
DOPS: Learning to Detect 3D Objects and Predict their 3D Shapes. CoRR abs/2004.01170 (2020) - [i39]Jimmy Wu, Xingyuan Sun, Andy Zeng, Shuran Song, Johnny Lee, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Spatial Action Maps for Mobile Manipulation. CoRR abs/2004.09141 (2020) - [i38]Li Yi, Boqing Gong, Thomas A. Funkhouser:
Complete & Label: A Domain Adaptation Approach to Semantic Segmentation of LiDAR Point Clouds. CoRR abs/2007.08488 (2020) - [i37]Yue Wang, Alireza Fathi, Abhijit Kundu, David A. Ross, Caroline Pantofaru, Thomas A. Funkhouser, Justin Solomon:
Pillar-based Object Detection for Autonomous Driving. CoRR abs/2007.10323 (2020) - [i36]Rui Huang, Wanyue Zhang, Abhijit Kundu, Caroline Pantofaru, David A. Ross, Thomas A. Funkhouser, Alireza Fathi:
An LSTM Approach to Temporal 3D Object Detection in LiDAR Point Clouds. CoRR abs/2007.12392 (2020) - [i35]Abhijit Kundu, Xiaoqi Yin, Alireza Fathi, David A. Ross, Brian Brewington, Thomas A. Funkhouser, Caroline Pantofaru:
Virtual Multi-view Fusion for 3D Semantic Segmentation. CoRR abs/2007.13138 (2020) - [i34]Yue Wang, Alireza Fathi, Jiajun Wu, Thomas A. Funkhouser, Justin Solomon:
Multi-Frame to Single-Frame: Knowledge Distillation for 3D Object Detection. CoRR abs/2009.11859 (2020) - [i33]Fangyin Wei, Elena Sizikova, Avneesh Sud, Szymon Rusinkiewicz, Thomas A. Funkhouser:
Learning to Infer Semantic Parameters for 3D Shape Editing. CoRR abs/2011.04755 (2020) - [i32]Christian Diller, Thomas A. Funkhouser, Angela Dai:
Forecasting Characteristic 3D Poses of Human Actions. CoRR abs/2011.15079 (2020) - [i31]Siyan Dong, Qingnan Fan, He Wang, Ji Shi, Li Yi, Thomas A. Funkhouser, Baoquan Chen, Leonidas J. Guibas:
Robust Neural Routing Through Space Partitions for Camera Relocalization in Dynamic Indoor Environments. CoRR abs/2012.04746 (2020) - [i30]Michelle Guo, Alireza Fathi, Jiajun Wu, Thomas A. Funkhouser:
Object-Centric Neural Scene Rendering. CoRR abs/2012.08503 (2020) - [i29]Yunze Liu, Li Yi, Shanghang Zhang, Qingnan Fan, Thomas A. Funkhouser, Hao Dong:
P4Contrast: Contrastive Learning with Pairs of Point-Pixel Pairs for RGB-D Scene Understanding. CoRR abs/2012.13089 (2020)
2010 – 2019
- 2019
- [j50]Elena Balashova, Amit H. Bermano, Vladimir G. Kim, Stephen DiVerdi, Aaron Hertzmann, Thomas A. Funkhouser:
Learning A Stroke-Based Representation for Fonts. Comput. Graph. Forum 38(1): 429-442 (2019) - [c66]Jingwei Huang, Haotian Zhang, Li Yi, Thomas A. Funkhouser, Matthias Nießner, Leonidas J. Guibas:
TextureNet: Consistent Local Parametrizations for Learning From High-Resolution Signals on Meshes. CVPR 2019: 4440-4449 - [c65]Shuran Song, Thomas A. Funkhouser:
Neural Illumination: Lighting Prediction for Indoor Environments. CVPR 2019: 6918-6926 - [c64]Maciej Halber, Yifei Shi, Kai Xu, Thomas A. Funkhouser:
Rescan: Inductive Instance Segmentation for Indoor RGBD Scans. ICCV 2019: 2541-2550 - [c63]Kyle Genova, Forrester Cole, Daniel Vlasic, Aaron Sarna, William T. Freeman, Thomas A. Funkhouser:
Learning Shape Templates With Structured Implicit Functions. ICCV 2019: 7153-7163 - [c62]Jingwei Huang, Yichao Zhou, Thomas A. Funkhouser, Leonidas J. Guibas:
FrameNet: Learning Local Canonical Frames of 3D Surfaces From a Single RGB Image. ICCV 2019: 8637-8646 - [c61]Andy Zeng, Shuran Song, Johnny Lee, Alberto Rodriguez, Thomas A. Funkhouser:
TossingBot: Learning to Throw Arbitrary Objects with Residual Physics. Robotics: Science and Systems 2019 - [i28]Andy Zeng, Shuran Song, Johnny Lee, Alberto Rodriguez, Thomas A. Funkhouser:
TossingBot: Learning to Throw Arbitrary Objects with Residual Physics. CoRR abs/1903.11239 (2019) - [i27]Jingwei Huang, Yichao Zhou, Thomas A. Funkhouser, Leonidas J. Guibas:
FrameNet: Learning Local Canonical Frames of 3D Surfaces from a Single RGB Image. CoRR abs/1903.12305 (2019) - [i26]Kyle Genova, Forrester Cole, Daniel Vlasic, Aaron Sarna, William T. Freeman, Thomas A. Funkhouser:
Learning Shape Templates with Structured Implicit Functions. CoRR abs/1904.06447 (2019) - [i25]Shuran Song, Thomas A. Funkhouser:
Neural Illumination: Lighting Prediction for Indoor Environments. CoRR abs/1906.07370 (2019) - [i24]Maciej Halber, Yifei Shi, Kai Xu, Thomas A. Funkhouser:
Rescan: Inductive Instance Segmentation for Indoor RGBD Scans. CoRR abs/1909.11268 (2019) - [i23]Shuran Song, Andy Zeng, Johnny Lee, Thomas A. Funkhouser:
Grasping in the Wild: Learning 6DoF Closed-Loop Grasping from Low-Cost Demonstrations. CoRR abs/1912.04344 (2019) - [i22]Kyle Genova, Forrester Cole, Avneesh Sud, Aaron Sarna, Thomas A. Funkhouser:
Deep Structured Implicit Functions. CoRR abs/1912.06126 (2019) - 2018
- [b1]Marco Attene, Marco Livesu, Sylvain Lefebvre, Thomas A. Funkhouser, Szymon Rusinkiewicz, Stefano Ellero, Jonàs Martínez, Amit H. Bermano:
Design, Representations, and Processing for Additive Manufacturing. Synthesis Lectures on Visual Computing, Morgan & Claypool Publishers 2018, ISBN 978-3-031-01468-0 - [j49]Elena Sizikova, Thomas A. Funkhouser:
Wall Painting Reconstruction Using a Genetic Algorithm. ACM Journal on Computing and Cultural Heritage 11(1): 3:1-3:17 (2018) - [c60]Elena Balashova, Vivek K. Singh, Jiangping Wang, Brian Teixeira, Terrence Chen, Thomas A. Funkhouser:
Structure-Aware Shape Synthesis. 3DV 2018: 140-149 - [c59]Kevin Chen, Christopher B. Choy, Manolis Savva, Angel X. Chang, Thomas A. Funkhouser, Silvio Savarese:
Text2Shape: Generating Shapes from Natural Language by Learning Joint Embeddings. ACCV (3) 2018: 100-116 - [c58]Yinda Zhang, Thomas A. Funkhouser:
Deep Depth Completion of a Single RGB-D Image. CVPR 2018: 175-185 - [c57]Shuran Song, Andy Zeng, Angel X. Chang, Manolis Savva, Silvio Savarese, Thomas A. Funkhouser:
Im2Pano3D: Extrapolating 360° Structure and Semantics Beyond the Field of View. CVPR 2018: 3847-3856 - [c56]Yifei Shi, Kai Xu, Matthias Nießner, Szymon Rusinkiewicz, Thomas A. Funkhouser:
PlaneMatch: Patch Coplanarity Prediction for Robust RGB-D Reconstruction. ECCV (8) 2018: 767-784 - [c55]Yinda Zhang, Sameh Khamis, Christoph Rhemann, Julien P. C. Valentin, Adarsh Kowdle, Vladimir Tankovich, Michael Schoenberg, Shahram Izadi, Thomas A. Funkhouser, Sean Ryan Fanello:
ActiveStereoNet: End-to-End Self-supervised Learning for Active Stereo Systems. ECCV (8) 2018: 802-819 - [c54]Andy Zeng, Shuran Song, Kuan-Ting Yu, Elliott Donlon, Francois Robert Hogan, Maria Bauzá, Daolin Ma, Orion Taylor, Melody Liu, Eudald Romo, Nima Fazeli, Ferran Alet, Nikhil Chavan Dafle, Rachel M. Holladay, Isabella Morona, Prem Qu Nair, Druck Green, Ian H. Taylor, Weber Liu, Thomas A. Funkhouser, Alberto Rodriguez:
Robotic Pick-and-Place of Novel Objects in Clutter with Multi-Affordance Grasping and Cross-Domain Image Matching. ICRA 2018: 1-8 - [c53]Andy Zeng, Shuran Song, Stefan Welker, Johnny Lee, Alberto Rodriguez, Thomas A. Funkhouser:
Learning Synergies Between Pushing and Grasping with Self-Supervised Deep Reinforcement Learning. IROS 2018: 4238-4245 - [i21]Yifei Shi, Kai Xu, Matthias Nießner, Szymon Rusinkiewicz, Thomas A. Funkhouser:
PlaneMatch: Patch Coplanarity Prediction for Robust RGB-D Reconstruction. CoRR abs/1803.08407 (2018) - [i20]Kevin Chen, Christopher B. Choy, Manolis Savva, Angel X. Chang, Thomas A. Funkhouser, Silvio Savarese:
Text2Shape: Generating Shapes from Natural Language by Learning Joint Embeddings. CoRR abs/1803.08495 (2018) - [i19]Yinda Zhang, Thomas A. Funkhouser:
Deep Depth Completion of a Single RGB-D Image. CoRR abs/1803.09326 (2018) - [i18]Andy Zeng, Shuran Song, Stefan Welker, Johnny Lee, Alberto Rodriguez, Thomas A. Funkhouser:
Learning Synergies between Pushing and Grasping with Self-supervised Deep Reinforcement Learning. CoRR abs/1803.09956 (2018) - [i17]Yinda Zhang, Sameh Khamis, Christoph Rhemann, Julien P. C. Valentin, Adarsh Kowdle, Vladimir Tankovich, Michael Schoenberg, Shahram Izadi, Thomas A. Funkhouser, Sean Ryan Fanello:
ActiveStereoNet: End-to-End Self-Supervised Learning for Active Stereo Systems. CoRR abs/1807.06009 (2018) - [i16]Elena Balashova, Vivek K. Singh, Jiangping Wang, Brian Teixeira, Terrence Chen, Thomas A. Funkhouser:
Structure-Aware Shape Synthesis. CoRR abs/1808.01427 (2018) - [i15]Jingwei Huang, Haotian Zhang, Li Yi, Thomas A. Funkhouser, Matthias Nießner, Leonidas J. Guibas:
TextureNet: Consistent Local Parametrizations for Learning from High-Resolution Signals on Meshes. CoRR abs/1812.00020 (2018) - 2017
- [j48]Amit H. Bermano, Thomas A. Funkhouser, Szymon Rusinkiewicz:
State of the Art in Methods and Representations for Fabrication-Aware Design. Comput. Graph. Forum 36(2): 509-535 (2017) - [c52]Jerry Liu, Fisher Yu, Thomas A. Funkhouser:
Interactive 3D Modeling with a Generative Adversarial Network. 3DV 2017: 126-134 - [c51]Angel X. Chang, Angela Dai, Thomas A. Funkhouser, Maciej Halber, Matthias Nießner, Manolis Savva, Shuran Song, Andy Zeng, Yinda Zhang:
Matterport3D: Learning from RGB-D Data in Indoor Environments. 3DV 2017: 667-676 - [c50]Shuran Song, Fisher Yu, Andy Zeng, Angel X. Chang, Manolis Savva, Thomas A. Funkhouser:
Semantic Scene Completion from a Single Depth Image. CVPR 2017: 190-198 - [c49]Andy Zeng, Shuran Song, Matthias Nießner, Matthew Fisher, Jianxiong Xiao, Thomas A. Funkhouser:
3DMatch: Learning Local Geometric Descriptors from RGB-D Reconstructions. CVPR 2017: 199-208 - [c48]Fisher Yu, Vladlen Koltun, Thomas A. Funkhouser:
Dilated Residual Networks. CVPR 2017: 636-644 - [c47]Angela Dai, Angel X. Chang, Manolis Savva, Maciej Halber, Thomas A. Funkhouser, Matthias Nießner:
ScanNet: Richly-Annotated 3D Reconstructions of Indoor Scenes. CVPR 2017: 2432-2443 - [c46]Yinda Zhang, Shuran Song, Ersin Yumer, Manolis Savva, Joon-Young Lee, Hailin Jin, Thomas A. Funkhouser:
Physically-Based Rendering for Indoor Scene Understanding Using Convolutional Neural Networks. CVPR 2017: 5057-5065 - [c45]Maciej Halber, Thomas A. Funkhouser:
Fine-to-Coarse Global Registration of RGB-D Scans. CVPR 2017: 6660-6669 - [i14]Angela Dai, Angel X. Chang, Manolis Savva, Maciej Halber, Thomas A. Funkhouser, Matthias Nießner:
ScanNet: Richly-annotated 3D Reconstructions of Indoor Scenes. CoRR abs/1702.04405 (2017) - [i13]Kyle Genova, Manolis Savva, Angel X. Chang, Thomas A. Funkhouser:
Learning Where to Look: Data-Driven Viewpoint Set Selection for 3D Scenes. CoRR abs/1704.02393 (2017) - [i12]Fisher Yu, Vladlen Koltun, Thomas A. Funkhouser:
Dilated Residual Networks. CoRR abs/1705.09914 (2017) - [i11]Jerry Liu, Fisher Yu, Thomas A. Funkhouser:
Interactive 3D Modeling with a Generative Adversarial Network. CoRR abs/1706.05170 (2017) - [i10]Angel X. Chang, Angela Dai, Thomas A. Funkhouser, Maciej Halber, Matthias Nießner, Manolis Savva, Shuran Song, Andy Zeng, Yinda Zhang:
Matterport3D: Learning from RGB-D Data in Indoor Environments. CoRR abs/1709.06158 (2017) - [i9]Andy Zeng, Shuran Song, Kuan-Ting Yu, Elliott Donlon, Francois Robert Hogan, Maria Bauzá, Daolin Ma, Orion Taylor, Melody Liu, Eudald Romo, Nima Fazeli, Ferran Alet, Nikhil Chavan Dafle, Rachel M. Holladay, Isabella Morona, Prem Qu Nair, Druck Green, Ian H. Taylor, Weber Liu, Thomas A. Funkhouser, Alberto Rodriguez:
Robotic Pick-and-Place of Novel Objects in Clutter with Multi-Affordance Grasping and Cross-Domain Image Matching. CoRR abs/1710.01330 (2017) - [i8]Li Yi, Lin Shao, Manolis Savva, Haibin Huang, Yang Zhou, Qirui Wang, Benjamin Graham, Martin Engelcke, Roman Klokov, Victor S. Lempitsky, Yuan Gan, Pengyu Wang, Kun Liu, Fenggen Yu, Panpan Shui, Bingyang Hu, Yan Zhang, Yangyan Li, Rui Bu, Mingchao Sun, Wei Wu, Minki Jeong, Jaehoon Choi, Changick Kim, Angom Geetchandra, Narasimha Murthy, Bhargava Ramu, Bharadwaj Manda, M. Ramanathan, Gautam Kumar, P. Preetham, Siddharth Srivastava, Swati Bhugra, Brejesh Lall, Christian Häne, Shubham Tulsiani, Jitendra Malik, Jared Lafer, Ramsey Jones, Siyuan Li, Jie Lu, Shi Jin, Jingyi Yu, Qixing Huang, Evangelos Kalogerakis, Silvio Savarese, Pat Hanrahan, Thomas A. Funkhouser, Hao Su, Leonidas J. Guibas:
Large-Scale 3D Shape Reconstruction and Segmentation from ShapeNet Core55. CoRR abs/1710.06104 (2017) - [i7]Manolis Savva, Angel X. Chang, Alexey Dosovitskiy, Thomas A. Funkhouser, Vladlen Koltun:
MINOS: Multimodal Indoor Simulator for Navigation in Complex Environments. CoRR abs/1712.03931 (2017) - [i6]Shuran Song, Andy Zeng, Angel X. Chang, Manolis Savva, Silvio Savarese, Thomas A. Funkhouser:
Im2Pano3D: Extrapolating 360 Structure and Semantics Beyond the Field of View. CoRR abs/1712.04569 (2017) - 2016
- [c44]Elena Sizikova, Thomas A. Funkhouser:
Wall Painting Reconstruction Using a Genetic Algorithm. GCH 2016: 83-91 - [i5]Maciej Halber, Thomas A. Funkhouser:
Structured Global Registration of RGB-D Scans in Indoor Environments. CoRR abs/1607.08539 (2016) - [i4]Shuran Song, Fisher Yu, Andy Zeng, Angel X. Chang, Manolis Savva, Thomas A. Funkhouser:
Semantic Scene Completion from a Single Depth Image. CoRR abs/1611.08974 (2016) - [i3]Yinda Zhang, Shuran Song, Ersin Yumer, Manolis Savva, Joon-Young Lee, Hailin Jin, Thomas A. Funkhouser:
Physically-Based Rendering for Indoor Scene Understanding Using Convolutional Neural Networks. CoRR abs/1612.07429 (2016) - 2015
- [j47]Tianqiang Liu, Jim McCann, Wilmot Li, Thomas A. Funkhouser:
Composition-Aware Scene Optimization for Product Images. Comput. Graph. Forum 34(2): 13-24 (2015) - [j46]Tianqiang Liu, Aaron Hertzmann, Wilmot Li, Thomas A. Funkhouser:
Style compatibility for 3D furniture models. ACM Trans. Graph. 34(4): 85:1-85:9 (2015) - [c43]David Dohan, Brian Matejek, Thomas A. Funkhouser:
Learning Hierarchical Semantic Segmentations of LIDAR Data. 3DV 2015: 273-281 - [c42]Fisher Yu, Jianxiong Xiao, Thomas A. Funkhouser:
Semantic alignment of LiDAR data at city scale. CVPR 2015: 1722-1731 - [i2]Angel X. Chang, Thomas A. Funkhouser, Leonidas J. Guibas, Pat Hanrahan, Qi-Xing Huang, Zimo Li, Silvio Savarese, Manolis Savva, Shuran Song, Hao Su, Jianxiong Xiao, Li Yi, Fisher Yu:
ShapeNet: An Information-Rich 3D Model Repository. CoRR abs/1512.03012 (2015) - 2014
- [j45]Vladimir G. Kim, Siddhartha Chaudhuri, Leonidas J. Guibas, Thomas A. Funkhouser:
Shape2Pose: human-centric shape analysis. ACM Trans. Graph. 33(4): 120:1-120:12 (2014) - [c41]Aleksey Boyko, Thomas A. Funkhouser:
Cheaper by the dozen: group annotation of 3D data. UIST 2014: 33-42 - 2013
- [j44]Vladimir G. Kim, Wilmot Li, Niloy J. Mitra, Siddhartha Chaudhuri, Stephen DiVerdi, Thomas A. Funkhouser:
Learning part-based templates from large collections of 3D shapes. ACM Trans. Graph. 32(4): 70:1-70:12 (2013) - [c40]Siddhartha Chaudhuri, Evangelos Kalogerakis, Stephen Giguere, Thomas A. Funkhouser:
Attribit: content creation with semantic attributes. UIST 2013: 193-202 - 2012
- [j43]Forrester Cole, Aleksey Golovinskiy, Alex Limpaecher, Heather Stoddart Barros, Adam Finkelstein, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Where do people draw lines? Commun. ACM 55(1): 107-115 (2012) - [j42]Tianqiang Liu, Vladimir G. Kim, Thomas A. Funkhouser:
Finding Surface Correspondences Using Symmetry Axis Curves. Comput. Graph. Forum 31(5): 1607-1616 (2012) - [j41]Hijung Shin, Christos Doumas, Thomas A. Funkhouser, Szymon Rusinkiewicz, Kenneth Steiglitz, Andreas Vlachopoulos, Tim Weyrich:
Analyzing and simulating fracture patterns of theran wall paintings. ACM Journal on Computing and Cultural Heritage 5(3): 10:1-10:14 (2012) - [j40]Vladimir G. Kim, Yaron Lipman, Thomas A. Funkhouser:
Symmetry-guided texture synthesis and manipulation. ACM Trans. Graph. 31(3): 22:1-22:14 (2012) - [j39]Xiaobai Chen, Abulhair Saparov, Bill Pang, Thomas A. Funkhouser:
Schelling points on 3D surface meshes. ACM Trans. Graph. 31(4): 29:1-29:12 (2012) - [j38]Vladimir G. Kim, Wilmot Li, Niloy J. Mitra, Stephen DiVerdi, Thomas A. Funkhouser:
Exploring collections of 3D models using fuzzy correspondences. ACM Trans. Graph. 31(4): 54:1-54:11 (2012) - [j37]Yaron Lipman, Vladimir G. Kim, Thomas A. Funkhouser:
Simple formulas for quasiconformal plane deformations. ACM Trans. Graph. 31(5): 124:1-124:13 (2012) - [j36]Matthew Fisher, Daniel Ritchie, Manolis Savva, Thomas A. Funkhouser, Pat Hanrahan:
Example-based synthesis of 3D object arrangements. ACM Trans. Graph. 31(6): 135:1-135:11 (2012) - 2011
- [j35]Thomas A. Funkhouser, Hijung Shin, Corey Toler-Franklin, Antonio García Castañeda, Benedict J. Brown, David P. Dobkin, Szymon Rusinkiewicz, Tim Weyrich:
Learning how to match fresco fragments. ACM Journal on Computing and Cultural Heritage 4(2): 7:1-7:13 (2011) - [j34]Vladimir G. Kim, Yaron Lipman, Thomas A. Funkhouser:
Blended intrinsic maps. ACM Trans. Graph. 30(4): 79 (2011) - [c39]Thomas A. Funkhouser, Hijung Shin, Corey Toler-Franklin, Antonio García Castañeda, Benedict J. Brown, David P. Dobkin, Szymon Rusinkiewicz, Tim Weyrich:
Learning How to Match Fresco Fragments. Eurographics (Areas Papers) 2011: 17-24 - [c38]Antonio García Castañeda, Benedict J. Brown, Szymon Rusinkiewicz, Thomas A. Funkhouser, Tim Weyrich:
Global Consistency in the Automatic Assembly of Fragmented Artefacts. VAST 2011: 73-80 - [i1]Doug M. Boyer, Yaron Lipman, Elizabeth St. Clair, Jesús Puente, Thomas A. Funkhouser, Biren A. Patel, Jukka Jernvall, Ingrid Daubechies:
Algorithms to automatically quantify the geometric similarity of anatomical surfaces. CoRR abs/1110.3649 (2011) - 2010
- [j33]Jian Sun, Xiaobai Chen, Thomas A. Funkhouser:
Fuzzy Geodesics and Consistent Sparse Correspondences For: eformable Shapes. Comput. Graph. Forum 29(5): 1535-1544 (2010) - [j32]Vladimir G. Kim, Yaron Lipman, Xiaobai Chen, Thomas A. Funkhouser:
Möbius Transformations For Global Intrinsic Symmetry Analysis. Comput. Graph. Forum 29(5): 1689-1700 (2010) - [j31]Yaron Lipman, Raif M. Rustamov, Thomas A. Funkhouser:
Biharmonic distance. ACM Trans. Graph. 29(3): 27:1-27:11 (2010) - [j30]Yaron Lipman, Xiaobai Chen, Ingrid Daubechies, Thomas A. Funkhouser:
Symmetry factored embedding and distance. ACM Trans. Graph. 29(4): 103:1-103:12 (2010) - [j29]Corey Toler-Franklin, Benedict J. Brown, Tim Weyrich, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Multi-feature matching of fresco fragments. ACM Trans. Graph. 29(6): 185 (2010) - [c37]Hijung Shin, Christos Doumas, Thomas A. Funkhouser, Szymon Rusinkiewicz, Kenneth Steiglitz, Andreas Vlachopoulos, Tim Weyrich:
Analyzing Fracture Patterns in TheranWall Paintings. VAST 2010: 71-78
2000 – 2009
- 2009
- [j28]Aleksey Golovinskiy, Thomas A. Funkhouser:
Consistent segmentation of 3D models. Comput. Graph. 33(3): 262-269 (2009) - [j27]Raif M. Rustamov, Yaron Lipman, Thomas A. Funkhouser:
Interior Distance Using Barycentric Coordinates. Comput. Graph. Forum 28(5): 1279-1288 (2009) - [j26]John A. Capra, Roman A. Laskowski, Janet M. Thornton, Mona Singh, Thomas A. Funkhouser:
Predicting Protein Ligand Binding Sites by Combining Evolutionary Sequence Conservation and 3D Structure. PLoS Comput. Biol. 5(12) (2009) - [j25]Forrester Cole, Kevin Sanik, Douglas DeCarlo, Adam Finkelstein, Thomas A. Funkhouser, Szymon Rusinkiewicz, Manish Singh:
How well do line drawings depict shape? ACM Trans. Graph. 28(3): 28 (2009) - [j24]Yaron Lipman, Thomas A. Funkhouser:
Möbius voting for surface correspondence. ACM Trans. Graph. 28(3): 72 (2009) - [j23]Xiaobai Chen, Aleksey Golovinskiy, Thomas A. Funkhouser:
A benchmark for 3D mesh segmentation. ACM Trans. Graph. 28(3): 73 (2009) - [c36]Aleksey Golovinskiy, Vladimir G. Kim, Thomas A. Funkhouser:
Shape-based recognition of 3D point clouds in urban environments. ICCV 2009: 2154-2161 - [c35]Aleksey Golovinskiy, Thomas A. Funkhouser:
Min-cut based segmentation of point clouds. ICCV Workshops 2009: 39-46 - [c34]Aleksey Golovinskiy, Joshua Podolak, Thomas A. Funkhouser:
Symmetry-Aware Mesh Processing. IMA Conference on the Mathematics of Surfaces 2009: 170-188 - 2008
- [j22]Forrester Cole, Aleksey Golovinskiy, Alex Limpaecher, Heather Stoddart Barros, Adam Finkelstein, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Where do people draw lines? ACM Trans. Graph. 27(3): 88 (2008) - [j21]Aleksey Golovinskiy, Thomas A. Funkhouser:
Randomized cuts for 3D mesh analysis. ACM Trans. Graph. 27(5): 145 (2008) - [c33]Jeehyung Lee, Thomas A. Funkhouser:
Sketch-Based Search and Composition of 3D Models. SBIM 2008: 97-104 - 2007
- [j20]Philip Shilane, Thomas A. Funkhouser:
Distinctive regions of 3D surfaces. ACM Trans. Graph. 26(2): 7 (2007) - 2006
- [j19]Ayellet Tal, Thomas A. Funkhouser, Ariel Shamir:
Editorial. Comput. Graph. 30(6): 891 (2006) - [j18]Joshua Podolak, Philip Shilane, Aleksey Golovinskiy, Szymon Rusinkiewicz, Thomas A. Funkhouser:
A planar-reflective symmetry transform for 3D shapes. ACM Trans. Graph. 25(3): 549-559 (2006) - [j17]Aleksey Golovinskiy, Wojciech Matusik, Hanspeter Pfister, Szymon Rusinkiewicz, Thomas A. Funkhouser:
A statistical model for synthesis of detailed facial geometry. ACM Trans. Graph. 25(3): 1025-1034 (2006) - [c32]Thomas A. Funkhouser, Philip Shilane:
Partial matching of 3D shapes with priority-driven search. Symposium on Geometry Processing 2006: 131-142 - [c31]Philip Shilane, Thomas A. Funkhouser:
Selecting Distinctive 3D Shape Descriptors for Similarity Retrieval. SMI 2006: 18 - 2005
- [j16]Thomas A. Funkhouser, Michael M. Kazhdan, Patrick Min, Philip Shilane:
Shape-based retrieval and analysis of 3d models. Commun. ACM 48(6): 58-64 (2005) - [j15]Grant Wallace, Otto J. Anshus, Peng Bi, Han Chen, Yuqun Chen, Douglas W. Clark, Perry R. Cook, Adam Finkelstein, Thomas A. Funkhouser, Anoop Gupta, Matthew A. Hibbs, Kai Li, Zhiyan Liu, Rudrajit Samanta, Rahul Sukthankar, Olga G. Troyanskaya:
Tools and Applications for Large-Scale Display Walls. IEEE Computer Graphics and Applications 25(4): 24-33 (2005) - 2004
- [j14]Michael M. Kazhdan, Bernard Chazelle, David P. Dobkin, Thomas A. Funkhouser, Szymon Rusinkiewicz:
A Reflective Symmetry Descriptor for 3D Models. Algorithmica 38(1): 201-225 (2004) - [j13]Jason Lawrence, Thomas A. Funkhouser:
A painting interface for interactive surface deformations. Graph. Model. 66(6): 418-438 (2004) - [j12]Michael M. Kazhdan, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Shape matching and anisotropy. ACM Trans. Graph. 23(3): 623-629 (2004) - [j11]Thomas A. Funkhouser, Michael M. Kazhdan, Philip Shilane, Patrick Min, William Kiefer, Ayellet Tal, Szymon Rusinkiewicz, David P. Dobkin:
Modeling by example. ACM Trans. Graph. 23(3): 652-663 (2004) - [c30]Patrick Min, Michael M. Kazhdan, Thomas A. Funkhouser:
A Comparison of Text and Shape Matching for Retrieval of Online 3D Models. ECDL 2004: 209-220 - [c29]Michael M. Kazhdan, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Symmetry Descriptors and 3D Shape Matching. Symposium on Geometry Processing 2004: 115-123 - [c28]Thomas A. Funkhouser, Michael Kazhdan:
Shape-based retrieval and analysis of 3D models. SIGGRAPH Course Notes 2004: 16 - [c27]Philip Shilane, Patrick Min, Michael M. Kazhdan, Thomas A. Funkhouser:
The Princeton Shape Benchmark. SMI 2004: 167-178 - [c26]Philip Shilane, Patrick Min, Michael M. Kazhdan, Thomas A. Funkhouser:
The Princeton Shape Benchmark (Figures 1 and 2). SMI 2004: 388 - 2003
- [j10]Daniel G. Aliaga, Thomas A. Funkhouser, Dimah Yanovsky, Ingrid Carlbom:
Sea of Images: A Dense Sampling Approach for Rendering Large Indoor Environments. IEEE Computer Graphics and Applications 23(6): 22-30 (2003) - [j9]Thomas A. Funkhouser, Patrick Min, Michael M. Kazhdan, Joyce Chen, J. Alex Halderman, David P. Dobkin, David Pokrass Jacobs:
A search engine for 3D models. ACM Trans. Graph. 22(1): 83-105 (2003) - [c25]Jason Lawrence, Thomas A. Funkhouser:
A Painting Interface for Interactive Surface Deformations. PG 2003: 141- - [c24]Michael M. Kazhdan, Thomas A. Funkhouser, Szymon Rusinkiewicz:
Rotation Invariant Spherical Harmonic Representation of 3D Shape Descriptors. Symposium on Geometry Processing 2003: 156-164 - [c23]Daniel G. Aliaga, Dimah Yanovsky, Thomas A. Funkhouser, Ingrid Carlbom:
Interactive image-based rendering using feature globalization. SI3D 2003: 163-170 - [c22]Patrick Min, John A. Halderman, Michael M. Kazhdan, Thomas A. Funkhouser:
Early experiences with a 3D model search engine. Web3D 2003: 7-18 - 2002
- [j8]Nicolas Tsingos, Ingrid Carlbom, Gary W. Elko, Robert Kubli, Thomas A. Funkhouser:
Validating Acoustical Simulations in Bell Labs Box. IEEE Computer Graphics and Applications 22(4): 28-37 (2002) - [j7]Robert Osada, Thomas A. Funkhouser, Bernard Chazelle, David P. Dobkin:
Shape distributions. ACM Trans. Graph. 21(4): 807-832 (2002) - [c21]Michael M. Kazhdan, Bernard Chazelle, David P. Dobkin, Adam Finkelstein, Thomas A. Funkhouser:
A Reflective Symmetry Descriptor. ECCV (2) 2002: 642-656 - [c20]Patrick Min, Joyce Chen, Thomas A. Funkhouser:
A 2D sketch interface for a 3D model search engine. SIGGRAPH Abstracts and Applications 2002: 138 - [c19]Michael Kazhdan, Thomas A. Funkhouser:
Harmonic 3D shape matching. SIGGRAPH Abstracts and Applications 2002: 191 - [c18]Daniel G. Aliaga, Thomas A. Funkhouser, Dimah Yanovsky, Ingrid Carlbom:
Sea of Images. IEEE Visualization 2002: 331-338 - 2001
- [j6]Han Chen, Yuqun Chen, Adam Finkelstein, Thomas A. Funkhouser, Kai Li, Zhiyan Liu, Rudrajit Samanta, Grant Wallace:
Data distribution strategies for high-resolution displays. Comput. Graph. 25(5): 811-818 (2001) - [c17]Rudrajit Samanta, Thomas A. Funkhouser, Kai Li:
Parallel rendering with k-way replication. IEEE Symposium on Parallel and Large-Data Visualization and Graphics 2001: 75-84 - [c16]Nicolas Tsingos, Thomas A. Funkhouser, Addy Ngan, Ingrid Carlbom:
Modeling acoustics in virtual environments using the uniform theory of diffraction. SIGGRAPH 2001: 545-552 - [c15]Robert Osada, Thomas A. Funkhouser, Bernard Chazelle, David P. Dobkin:
Matching 3D Models with Shape Distributions. Shape Modeling International 2001: 154-166 - 2000
- [j5]Thomas A. Funkhouser, Kai Li:
Guest Editors' Introduction: Large-Format Displays. IEEE Computer Graphics and Applications 20(4): 20-21 (2000) - [j4]Kai Li, Han Chen, Yuqun Chen, Douglas W. Clark, Perry R. Cook, Stefanos N. Damianakis, Georg Essl, Adam Finkelstein, Thomas A. Funkhouser, Timothy C. Housel, Allison W. Klein, Zhiyan Liu, Emil Praun, Rudrajit Samanta, Ben Shedd, Jaswinder Pal Singh, George Tzanetakis, Jiannan Zheng:
Building and Using A Scalable Display Wall System. IEEE Computer Graphics and Applications 20(4): 29-37 (2000) - [j3]Patrick Min, Thomas A. Funkhouser:
Priority-Driven Acoustic Modeling for Virtual Environments. Comput. Graph. Forum 19(3): 179-188 (2000) - [c14]Rudrajit Samanta, Thomas A. Funkhouser, Kai Li, Jaswinder Pal Singh:
Hybrid Sort-First and Sort-Last Parallel Rendering with a Cluster of PCs. Workshop on Graphics Hardware 2000: 97-108 - [c13]Allison W. Klein, Wilmot Li, Michael M. Kazhdan, Wagner Toledo Corrêa, Adam Finkelstein, Thomas A. Funkhouser:
Non-photorealistic virtual environments. SIGGRAPH 2000: 527-534
1990 – 1999
- 1999
- [j2]Thomas A. Funkhouser:
A visibility algorithm for hybrid geometry- and image-based modeling and rendering. Comput. Graph. 23(5): 719-728 (1999) - [c12]Rudrajit Samanta, Jiannan Zheng, Thomas A. Funkhouser, Kai Li, Jaswinder Pal Singh:
Load Balancing for Multi-Projector Rendering Systems. Workshop on Graphics Hardware 1999: 107-116 - [c11]Thomas A. Funkhouser, Patrick Min, Ingrid Carlbom:
Real-Time Acoustic Modeling for Distributed Virtual Environments. SIGGRAPH 1999: 365-374 - 1998
- [c10]Thomas A. Funkhouser, Ingrid Carlbom, Gary W. Elko, Gopal Sarma Pingali, Man Mohan Sondhi, Jim West:
A Beam Tracing Approach to Acoustic Modeling for Interactive Virtual Environments. SIGGRAPH 1998: 21-32 - 1997
- [c9]T. M. Murali, Thomas A. Funkhouser:
Consistent Solid and Boundary Representations from Arbitrary Polygonal Data. SI3D 1997: 155-162, 196 - 1996
- [j1]Thomas A. Funkhouser, Seth J. Teller, Delnaz Khorramabadi:
The UC Berkeley System for Interactive Visualization of Large Architectural Models. Presence Teleoperators Virtual Environ. 5(1): 13-44 (1996) - [c8]Thomas A. Funkhouser:
Database Management for Interactive Display of Large Architectural Models. Graphics Interface 1996: 1-8 - [c7]Thomas A. Funkhouser:
Coarse-Grained Parallelism for Hierarchical Radiosity Using Group Iterative Methods. SIGGRAPH 1996: 343-352 - [c6]Alexandros Biliris, Thomas A. Funkhouser, William O'Connell, Euthimios Panagos:
BeSS: Storage Support for Interactive Visualization Systems. SIGMOD Conference 1996: 556 - [c5]Thomas A. Funkhouser:
Network Topologies for Scalable Multi-User Virtual Environments. VRAIS 1996: 222-229 - 1995
- [c4]Thomas A. Funkhouser:
RING: A Client-Server System for Multi-User Virtual Environments. SI3D 1995: 85-92, 209 - 1994
- [c3]Seth J. Teller, Celeste Fowler, Thomas A. Funkhouser, Pat Hanrahan:
Partitioning and ordering large radiosity computations. SIGGRAPH 1994: 443-450 - 1993
- [c2]Thomas A. Funkhouser, Carlo H. Séquin:
Adaptive display algorithm for interactive frame rates during visualization of complex virtual environments. SIGGRAPH 1993: 247-254 - 1992
- [c1]Thomas A. Funkhouser, Carlo H. Séquin, Seth J. Teller:
Management of Large Amounts of Data in Interactive Building Walkthroughs. SI3D 1992: 11-20
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 2024-11-18 21:48 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint