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Michael Weinmann
Person information
- affiliation: Delft University of Technology, The Netherlands
- affiliation (former): University of Bonn, Institute of Computer Science, Germany
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2020 – today
- 2024
- [j19]Elena Trunz, Jonathan Klein, Jan U. Müller, Lukas Bode, Ralf Sarlette, Michael Weinmann
, Reinhard Klein:
Neural inverse procedural modeling of knitting yarns from images. Comput. Graph. 118: 161-172 (2024) - [j18]Patrick Stotko
Incomplete Gamma Kernels: Generalizing Locally Optimal Projection Operators. IEEE Trans. Pattern Anal. Mach. Intell. 46(6): 4075-4089 (2024) - [c45]Benno Buschmann, Andreea Dogaru, Elmar Eisemann, Michael Weinmann, Bernhard Egger:
RANRAC: Robust Neural Scene Representations via Random Ray Consensus. ECCV (76) 2024: 126-143 - [c44]Saptarshi Neil Sinha
SpectralSplatsViewer: An Interactive Web-Based Tool for Visualizing Cross-Spectral Gaussian Splats. Web3D 2024: 22:1-22:10 - [c43]Saptarshi Neil Sinha
DeepMaterialInsights: A Web-based Framework Harnessing Deep Learning for Estimation, Visualization, and Export of Material Assets from Images. Web3D 2024: 24:1-24:5 - [i19]Saptarshi Neil Sinha, Holger Graf, Michael Weinmann:
SpectralGaussians: Semantic, spectral 3D Gaussian splatting for multi-spectral scene representation, visualization and analysis. CoRR abs/2408.06975 (2024) - 2023
- [c42]Leif Van Holland, Patrick Stotko, Stefan Krumpen, Reinhard Klein, Michael Weinmann:
Efficient 3D Reconstruction, Streaming and Visualization of Static and Dynamic Scene Parts for Multi-client Live-telepresence in Large-scale Environments. ICCV (Workshops) 2023: 4260-4274 - [c41]Saptarshi Neil Sinha
Portrait2Bust: DualStyleGAN-based Portrait Image Stylization Based on Bust Sculpture Images. GCH 2023: 67-73 - [c40]Arthur Clay, Giorgio Trumpy, Michael Weinmann, Richard Wetzel:
Prototyping Care: Two Case Studies. GCH 2023: 189-190 - [i18]Elena Trunz, Jonathan Klein, Jan U. Müller, Lukas Bode, Ralf Sarlette, Michael Weinmann, Reinhard Klein:
Neural inverse procedural modeling of knitting yarns from images. CoRR abs/2303.00154 (2023) - [i17]Benno Buschmann, Andreea Dogaru, Elmar Eisemann, Michael Weinmann, Bernhard Egger:
RANRAC: Robust Neural Scene Representations via Random Ray Consensus. CoRR abs/2312.09780 (2023) - 2022
- [j17]Lukas Bode
Locally-guided neural denoising. Graph. Vis. Comput. 7: 200058 (2022) - [j16]Elena Trunz, Michael Weinmann, Sebastian Merzbach, Reinhard Klein:
Efficient structuring of the latent space for controllable data reconstruction and compression. Graph. Vis. Comput. 7: 200059 (2022) - [j15]Stefan Krumpen, Reinhard Klein, Michael Weinmann:
Towards Tangible Cultural Heritage Experiences - Enriching VR-based Object Inspection with Haptic Feedback. ACM Journal on Computing and Cultural Heritage 15(1): 19:1-19:17 (2022) - [c39]Nils Wandel, Michael Weinmann, Michael Neidlin, Reinhard Klein:
Spline-PINN: Approaching PDEs without Data Using Fast, Physics-Informed Hermite-Spline CNNs. AAAI 2022: 8529-8538 - [c38]Jan U. Müller
Unbiased Gradient Estimation for Differentiable Surface Splatting via Poisson Sampling. ECCV (33) 2022: 281-299 - [c37]Andre Rochow, Max Schwarz, Michael Weinmann, Sven Behnke:
FaDIV-Syn: Fast Depth-Independent View Synthesis using Soft Masks and Implicit Blending. Robotics: Science and Systems 2022 - [i16]Javier Grau, Markus Plack, Patrick Haehn, Michael Weinmann, Matthias B. Hullin:
Occlusion Fields: An Implicit Representation for Non-Line-of-Sight Surface Reconstruction. CoRR abs/2203.08657 (2022) - [i15]Patrick Stotko, Michael Weinmann, Reinhard Klein:
Incomplete Gamma Kernels: Generalizing Locally Optimal Projection Operators. CoRR abs/2205.01087 (2022) - [i14]Lukas Bode, Michael Weinmann, Reinhard Klein:
BoundED: Neural Boundary and Edge Detection in 3D Point Clouds via Local Neighborhood Statistics. CoRR abs/2210.13305 (2022) - [i13]Leif Van Holland, Patrick Stotko, Stefan Krumpen, Reinhard Klein, Michael Weinmann:
Efficient 3D Reconstruction, Streaming and Visualization of Static and Dynamic Scene Parts for Multi-client Live-telepresence in Large-scale Environments. CoRR abs/2211.14310 (2022) - 2021
- [j14]Domenic Zingsheim
Collaborative VR-Based 3D Labeling of Live-Captured Scenes by Remote Users. IEEE Computer Graphics and Applications 41(4): 90-98 (2021) - [j13]Ruotong Li
Versatile multi-constrained planning for thermal ablation of large liver tumors. Comput. Medical Imaging Graph. 94: 101993 (2021) - [c36]Nils Wandel, Michael Weinmann, Reinhard Klein:
Learning Incompressible Fluid Dynamics from Scratch - Towards Fast, Differentiable Fluid Models that Generalize. ICLR 2021 - [c35]Kira Bungert, Lilli Bruckschen
Human-Aware Robot Navigation Based on Learned Cost Values from User Studies. RO-MAN 2021: 337-342 - [i12]Stefan Krumpen, Reinhard Klein, Michael Weinmann:
Towards Tangible Cultural Heritage Experiences - Enriching VR-Based Object Inspection with Haptic Feedback. CoRR abs/2102.05361 (2021) - [i11]Andre Rochow, Max Schwarz, Michael Weinmann, Sven Behnke:
FaDIV-Syn: Fast Depth-Independent View Synthesis. CoRR abs/2106.13139 (2021) - [i10]Nils Wandel, Michael Weinmann, Michael Neidlin, Reinhard Klein:
Spline-PINN: Approaching PDEs without Data using Fast, Physics-Informed Hermite-Spline CNNs. CoRR abs/2109.07143 (2021) - 2020
- [j12]Tim Golla, Tom Kneiphof, Heiner Kuhlmann, Michael Weinmann, Reinhard Klein:
Temporal Upsampling of Point Cloud Sequences by Optimal Transport for Plant Growth Visualization. Comput. Graph. Forum 39(6): 167-179 (2020) - [j11]Julian Iseringhausen
Computational Parquetry: Fabricated Style Transfer with Wood Pixels. ACM Trans. Graph. 39(2): 12:1-12:14 (2020) - [c34]Dennis den Brok, Sebastian Merzbach, Michael Weinmann, Reinhard Klein:
Per-Image Super-Resolution for Material BTFs. ICCP 2020: 1-10 - [c33]Lilli Bruckschen
Where Can I Help? Human-Aware Placement of Service Robots. RO-MAN 2020: 533-538 - [i9]Nils Wandel, Michael Weinmann, Reinhard Klein:
Unsupervised Deep Learning of Incompressible Fluid Dynamics. CoRR abs/2006.08762 (2020) - [i8]Nils Wandel, Michael Weinmann, Reinhard Klein:
Fast Fluid Simulations in 3D with Physics-Informed Deep Learning. CoRR abs/2012.11893 (2020)
2010 – 2019
- 2019
- [j10]Rodrigo Martín, Min Xue, Reinhard Klein, Matthias B. Hullin, Michael Weinmann
Using patch-based image synthesis to measure perceptual texture similarity. Comput. Graph. 81: 104-116 (2019) - [j9]Ruotong Li
Constraint-Based Optimized Human Skeleton Extraction from Single-Depth Camera. Sensors 19(11): 2604 (2019) - [j8]Patrick Stotko, Stefan Krumpen, Matthias B. Hullin, Michael Weinmann
SLAMCast: Large-Scale, Real-Time 3D Reconstruction and Streaming for Immersive Multi-Client Live Telepresence. IEEE Trans. Vis. Comput. Graph. 25(5): 2102-2112 (2019) - [c32]Lukas Bode
Real-Time Multi-Material Reflectance Reconstruction for Large-Scale Scenes Under Uncontrolled Illumination from RGB-D Image Sequences. 3DV 2019: 709-718 - [c31]Elena Trunz, Sebastian Merzbach, Jonathan Klein, Thomas Schulze, Michael Weinmann, Reinhard Klein:
Inverse Procedural Modeling of Knitwear. CVPR 2019: 8630-8639 - [c30]Patrick Stotko, Stefan Krumpen, Max Schwarz, Christian Lenz, Sven Behnke
A VR System for Immersive Teleoperation and Live Exploration with a Mobile Robot. IROS 2019: 3630-3637 - [c29]Patrick Stotko, Stefan Krumpen, Michael Weinmann, Reinhard Klein:
Efficient 3D Reconstruction and Streaming for Group-Scale Multi-client Live Telepresence. ISMAR 2019: 19-25 - [c28]Martin Weinmann, Michael Weinmann
Urban Scene Labeling Based on Multi-Modal Data Acquired from Aerial Sensor Platforms. JURSE 2019: 1-4 - [i7]Julian Iseringhausen
Computational Parquetry: Fabricated Style Transfer with Wood Pixels. CoRR abs/1904.04769 (2019) - [i6]Patrick Stotko, Stefan Krumpen, Max Schwarz, Christian Lenz, Sven Behnke, Reinhard Klein, Michael Weinmann
A VR System for Immersive Teleoperation and Live Exploration with a Mobile Robot. CoRR abs/1908.02949 (2019) - [i5]Patrick Stotko, Stefan Krumpen, Michael Weinmann
Efficient 3D Reconstruction and Streaming for Group-Scale Multi-Client Live Telepresence. CoRR abs/1908.03118 (2019) - [i4]Jan U. Müller, Reinhard Klein, Michael Weinmann
Orthogonal Wasserstein GANs. CoRR abs/1911.13060 (2019) - [i3]Julian Tanke, Oh-Hun Kwon, Patrick Stotko, Radu Alexandru Rosu, Michael Weinmann
Bonn Activity Maps: Dataset Description. CoRR abs/1912.06354 (2019) - 2018
- [j7]Dennis den Brok, Michael Weinmann
Rapid material capture through sparse and multiplexed measurements. Comput. Graph. 73: 26-36 (2018) - [j6]Martin Weinmann
Geospatial Computer Vision Based on Multi-Modal Data - How Valuable Is Shape Information for the Extraction of Semantic Information? Remote. Sens. 10(1): 2 (2018) - [c27]Heinz Christian Steinhausen, Dennis den Brok, Sebastian Merzbach, Michael Weinmann, Reinhard Klein:
Data-driven Enhancement of SVBRDF Reflectance Data. VISIGRAPP (1: GRAPP) 2018: 273-280 - [c26]Kaiqiang Chen, Kun Fu, Xian Sun, Michael Weinmann
Deep Semantic Segmentation of Aerial Imagery Based on Multi-Modal Data. IGARSS 2018: 6219-6222 - [c25]Tom Kneiphof, Tim Golla, Michael Weinmann, Reinhard Klein:
A Method for Fitting Measured Car Paints to a Game Engine's Rendering Model. MAM@EGSR 2018: 27-31 - [c24]Rodrigo Martín, Michael Weinmann
A Study of Material Sonification in Touchscreen Devices. ISS 2018: 305-310 - [i2]Patrick Stotko, Stefan Krumpen, Matthias B. Hullin, Michael Weinmann
SLAMCast: Large-Scale, Real-Time 3D Reconstruction and Streaming for Immersive Multi-Client Live Telepresence. CoRR abs/1805.03709 (2018) - [i1]Rodrigo Martín, Michael Weinmann
Evaluating the Effects of Material Sonification in Tactile Devices. CoRR abs/1807.01106 (2018) - 2017
- [b1]Michael Weinmann:
Material Recognition Meets 3D Reconstruction: Novel Tools for Efficient, Automatic Acquisition Systems. University of Bonn, Germany, 2017 - [j5]Stefan Krumpen
OctreeBTFs - A compact, seamless and distortion-free reflectance representation. Comput. Graph. 68: 21-31 (2017) - [j4]Rodrigo Martín, Michael Weinmann, Matthias B. Hullin:
Digital Transmission of Subjective Material Appearance. J. WSCG 25(2): 123-132 (2017) - [j3]Martin Weinmann
A Classification-Segmentation Framework for the Detection of Individual Trees in Dense MMS Point Cloud Data Acquired in Urban Areas. Remote. Sens. 9(3): 277 (2017) - [c23]Sebastian Merzbach, Michael Weinmann, Martin Rump, Reinhard Klein:
Fast Capture of Spectral Image Series. VISIGRAPP (1: GRAPP) 2017: 148-159 - [c22]Stefan Krumpen, Michael Weinmann, Reinhard Klein:
Interactive Appearance Manipulation of Fiber-based Materials. VISIGRAPP (1: GRAPP) 2017: 266-273 - [c21]Jonathan Klein, Stefan Hartmann, Michael Weinmann
Multi-scale terrain texturing using generative adversarial networks. IVCNZ 2017: 1-6 - [c20]Sebastian Merzbach, Michael Weinmann, Reinhard Klein:
High-Quality Multi-Spectral Reflectance Acquisition with X-Rite TAC7. MAM@EGSR 2017: 11-16 - [c19]Dennis den Brok, Michael Weinmann, Reinhard Klein:
Towards Sparse and Multiplexed Acquisition of Material BTFs. MAM@EGSR 2017: 17-20 - 2016
- [c18]Michael Weinmann, Fabian Langguth, Michael Goesele, Reinhard Klein:
Advances in Geometry and Reflectance Acquisition. Eurographics (Tutorials) 2016 - [c17]Michael Weinmann, Reinhard Klein:
Exploring Material Recognition for Estimating Reflectance and Illumination From a Single Image. MAM@EGSR 2016: 27-34 - [c16]Tamy Boubekeur, Paolo Cignoni
Harvesting Dynamic 3D Worlds from Commodity Sensor Clouds. GCH 2016: 19-22 - 2015
- [c15]Rodrigo Martín, Julian Iseringhausen
Multimodal perception of material properties. SAP 2015: 33-40 - [c14]Dennis den Brok, Michael Weinmann, Reinhard Klein:
Linear Models for Material BTFs and Possible Applications. Material Appearance Modeling 2015 - [c13]Michael Weinmann, Reinhard Klein:
A Short Survey on Optical Material Recognition. Material Appearance Modeling 2015 - [c12]Michael Weinmann
Advances in geometry and reflectance acquisition (course notes). SIGGRAPH Asia Courses 2015: 1:1-1:71 - [c11]Michael Weinmann
Appearance capture and modeling. SIGGRAPH Asia Courses 2015: 4:1 - 2014
- [j2]Christopher Schwartz, Ralf Sarlette, Michael Weinmann
Design and Implementation of Practical Bidirectional Texture Function Measurement Devices Focusing on the Developments at the University of Bonn. Sensors 14(5): 7753-7819 (2014) - [c10]Michael Weinmann
Material Classification Based on Training Data Synthesized Using a BTF Database. ECCV (3) 2014: 156-171 - [c9]Michael Weinmann
Material Recognition for Efficient Acquisition of Geometry and Reflectance. ECCV Workshops (3) 2014: 321-333 - 2013
- [j1]Christopher Schwartz, Roland Ruiters, Michael Weinmann
WebGL-based streaming and presentation of objects with bidirectional texture functions. ACM Journal on Computing and Cultural Heritage 6(3): 11:1-11:21 (2013) - [c8]Michael Weinmann
Multi-view Normal Field Integration for 3D Reconstruction of Mirroring Objects. ICCV 2013: 2504-2511 - [c7]Christopher Schwartz, Ralf Sarlette, Michael Weinmann, Reinhard Klein:
DOME II: A Parallelized BTF Acquisition System. Material Appearance Modeling 2013: 25-31 - 2012
- [c6]Michael Weinmann
Fusing Structured Light Consistency and Helmholtz Normals for 3D Reconstruction. BMVC 2012: 1-12 - 2011
- [c5]Michael Weinmann
A Multi-camera, Multi-projector Super-Resolution Framework for Structured Light. 3DIMPVT 2011: 397-404 - [c4]Christopher Schwartz, Michael Weinmann, Roland Ruiters, Arno Zinke, Ralf Sarlette, Reinhard Klein:
Capturing shape and reflectance of food. SIGGRAPH Asia Sketches 2011: 28:1-28:2 - [c3]Christopher Schwartz, Michael Weinmann, Roland Ruiters, Reinhard Klein:
Integrated High-Quality Acquisition of Geometry and Appearance for Cultural Heritage. VAST 2011: 25-32 - [c2]Christopher Schwartz, Roland Ruiters, Michael Weinmann, Reinhard Klein:
WebGL-based Streaming and Presentation Framework for Bidirectional Texture Functions. VAST 2011: 113-120
2000 – 2009
- 2006
- [c1]Jörg Wolff, Thomas Heuer, Haibin Gao, Michael Weinmann, Stefan Voit, Uwe Hartmann:
Parking monitor system based on magnetic field senso. ITSC 2006: 1275-1279
Coauthor Index
[j19] [j18] [c42] [i18] [j17] [j16] [j15] [c39] [c38] [i15] [i14] [i13] [j14] [j13] [c36] [i12] [i10] [j12] [c34] [c33] [i9] [i8] [j10] [j9] [j8] [c32] [c31] [c30] [c29] [i6] [i5] [i4] [i3] [j7] [c27] [c25] [i2] [j5] [c23] [c22] [c20] [c19] [c18] [c17] [c16] [c14] [c13] [c12] [c11] [j2] [c10] [c9] [j1] [c8] [c7] [c6] [c5] [c4] [c3] [c2]
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last updated on 2024-11-11 21:29 CET by the dblp team
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