Support-Free Volume Printing by Multi-Axis Motion (SIGGRAPH 2018)
Computational Design and Fabrication Lab TU Delft
Support-Free Volume Printing by Multi-Axis Motion (SIGGRAPH 2018)
2:26
Color-Based Sensing of Bending Deformation on Soft Robots
Computational Design and Fabrication Lab TU Delft
Color-Based Sensing of Bending Deformation on Soft Robots
1:50
Geometry-Based Direct Simulation for Multi-Material Soft Robots
Computational Design and Fabrication Lab TU Delft
Geometry-Based Direct Simulation for Multi-Material Soft Robots
1:03
Support-Free Hollowing
Computational Design and Fabrication Lab TU Delft
Support-Free Hollowing
2:58
Thermal-Comfort Design of Personalized Casts
Computational Design and Fabrication Lab TU Delft
Thermal-Comfort Design of Personalized Casts
3:19
EasySRRobot: An Easy-to-Build Self-Reconfigurable Robot with Optimized Design
Computational Design and Fabrication Lab TU Delft
EasySRRobot: An Easy-to-Build Self-Reconfigurable Robot with Optimized Design
1:39
Delta DLP 3D Printing of Large Models
Computational Design and Fabrication Lab TU Delft
Delta DLP 3D Printing of Large Models
1:50
RoboFDM: Curved 3D Printing
Computational Design and Fabrication Lab TU Delft
RoboFDM: Curved 3D Printing
1:47
RoboFDM: a robotic system for support-free fabrication using FDM
Computational Design and Fabrication Lab TU Delft
RoboFDM: a robotic system for support-free fabrication using FDM
1:31
Data-Driven Bending Elasticity Design by Shell Thickness
Computational Design and Fabrication Lab TU Delft
Data-Driven Bending Elasticity Design by Shell Thickness
2:48
Efficient C^2-Weighting for Image Warping
Computational Design and Fabrication Lab TU Delft
Efficient C^2-Weighting for Image Warping
3:05
Rope Caging and Grasping
Computational Design and Fabrication Lab TU Delft
Rope Caging and Grasping
2:23
Steering Micro-Robotic Swarm by Dynamic Actuating Fields
Computational Design and Fabrication Lab TU Delft
Steering Micro-Robotic Swarm by Dynamic Actuating Fields
2:01
Robust and GPU-friendly Isotropic Meshing Based on Narrow-banded Euclidean Distance Transformation
Computational Design and Fabrication Lab TU Delft
Robust and GPU-friendly Isotropic Meshing Based on Narrow-banded Euclidean Distance Transformation
4:31
Perceptual Models of Preference in 3D Printing Direction
Computational Design and Fabrication Lab TU Delft
Perceptual Models of Preference in 3D Printing Direction
2:17
Progressive segmentation for MRR-based feed-rate optimization in CNC machining
Computational Design and Fabrication Lab TU Delft
Progressive segmentation for MRR-based feed-rate optimization in CNC machining
2:08
4D Printing for Freeform Surfaces: Design Optimization of Origami Structures
Computational Design and Fabrication Lab TU Delft
4D Printing for Freeform Surfaces: Design Optimization of Origami Structures
4:13
Particle Simulation by GPU-Based Spherical Range-Search
Computational Design and Fabrication Lab TU Delft
Particle Simulation by GPU-Based Spherical Range-Search
2:37
Styling Evolution for Tight-Fitting Garments
Computational Design and Fabrication Lab TU Delft
Styling Evolution for Tight-Fitting Garments
4:36
Photometric stereo with near point lighting: A solution by mesh deformation
Computational Design and Fabrication Lab TU Delft
Photometric stereo with near point lighting: A solution by mesh deformation
2:18
Computing Stable Contact Interface for Customized Surgical Jigs
Computational Design and Fabrication Lab TU Delft
Computing Stable Contact Interface for Customized Surgical Jigs
0:56
Foot-Rooted Body Motion Capture by IMU Sensors
Computational Design and Fabrication Lab TU Delft
Foot-Rooted Body Motion Capture by IMU Sensors
1:12
Support Slimming for Single Material Based Additive Manufacturing
Computational Design and Fabrication Lab TU Delft
Support Slimming for Single Material Based Additive Manufacturing
3:35
Shape-from-Gradient by Discrete Geometry Processing
Computational Design and Fabrication Lab TU Delft
Shape-from-Gradient by Discrete Geometry Processing
1:01
Pedalvatar: An IMU-based real-time body motion capture system
Computational Design and Fabrication Lab TU Delft
Pedalvatar: An IMU-based real-time body motion capture system
0:54
Surface-from-Gradients: An approach based on discrete geometry processing
Computational Design and Fabrication Lab TU Delft
Surface-from-Gradients: An approach based on discrete geometry processing
4:15
Multi-region segmentation based on compact shape prior
Computational Design and Fabrication Lab TU Delft
Multi-region segmentation based on compact shape prior
1:25
Fast 3D Printing
Computational Design and Fabrication Lab TU Delft
Fast 3D Printing
1:35
Shape Optimization for Human-Centric Products with Standardized Components
Computational Design and Fabrication Lab TU Delft
Shape Optimization for Human-Centric Products with Standardized Components
10:01
LDNI-based Solid Modeling and Fabrication
Computational Design and Fabrication Lab TU Delft
LDNI-based Solid Modeling and Fabrication
3:12
Deformation with Enforced Metrics on Length, Area and Volume
Computational Design and Fabrication Lab TU Delft
Deformation with Enforced Metrics on Length, Area and Volume
5:19
LDNI-based Solid Modeling and Applications
Computational Design and Fabrication Lab TU Delft
LDNI-based Solid Modeling and Applications
2:44
Improved Skeleton Tracking by Duplex Kinects: A Practical Approach for Real-Time Applications
Computational Design and Fabrication Lab TU Delft
Improved Skeleton Tracking by Duplex Kinects: A Practical Approach for Real-Time Applications
3:58
Volumetric Template Fitting for Human Body Reconstruction From Incomplete Data
Computational Design and Fabrication Lab TU Delft
Volumetric Template Fitting for Human Body Reconstruction From Incomplete Data
5:38
FMW Application --- Facial Mask Design
Computational Design and Fabrication Lab TU Delft
FMW Application --- Facial Mask Design
5:14
Parallel and efficient Boolean on polygonal solids
Computational Design and Fabrication Lab TU Delft
Parallel and efficient Boolean on polygonal solids
3:21
Bending-invariant correspondence matching on 3D human bodies for feature point extraction
Computational Design and Fabrication Lab TU Delft
Bending-invariant correspondence matching on 3D human bodies for feature point extraction
3:56
Smooth Force Rendering On Coarse Polygonal Meshes
Computational Design and Fabrication Lab TU Delft
Smooth Force Rendering On Coarse Polygonal Meshes
2:34
From Styling Design to Fabricated Wetsuit
Computational Design and Fabrication Lab TU Delft
From Styling Design to Fabricated Wetsuit
4:22
Solid modeling of polyhedral objects by Layered Depth-Normal Images on the GPU
Computational Design and Fabrication Lab TU Delft
Solid modeling of polyhedral objects by Layered Depth-Normal Images on the GPU
8:22