Keyphrases
3D Reconstruction
100%
Joint Estimation
100%
3D Geometry
100%
Recent Advances
50%
Scribble
50%
Color Information
50%
3D Shape
50%
Continuous Representation
50%
2D Image
50%
3D Surface
50%
Computational Effort
50%
Bayesian Inference
50%
Variational
50%
Resilience
50%
Spatially Continuous
50%
Specular Reflection
50%
Model Assumptions
50%
Parallel Computing
50%
Modeling Approach
50%
Image-based Modeling
50%
Maximum a Posteriori
50%
Probabilistic Framework
50%
2D Segmentation
50%
User Input
50%
Occupancy
50%
Camera Sensor
50%
Multivariate Gaussian
50%
Most Probable
50%
Visual Hull
50%
Background Clutter
50%
Background Region
50%
Globally Optimal
50%
Corresponding Colors
50%
GPU Implementation
50%
Color Distribution
50%
Shape Inference
50%
Foreground Region
50%
Surface Consistent
50%
Silhouette Extraction
50%
Multi-view Reconstruction
50%
Probabilistic Formulation
50%
Convex Relaxation Technique
50%
Engineering
Joints (Structural Components)
100%
Computational Effort
100%
Classical Method
100%
Joint Estimation
100%
Graphics Processing Unit
100%
Maximum a Posteriori
100%
Coherency
100%
Probabilistic Framework
100%
Gaussians
100%
Specular Reflection
100%
Background Region
100%
Parallel Computer
100%
Computer Science
3d Reconstruction
100%
Probabilistic Formulation
50%
Convex Relaxation
50%
Color Information
50%
Color Distribution
50%
Shape Inference
50%
Background Region
50%
Computational Effort
50%
Specular Reflection
50%
Probabilistic Framework
50%
Graphics Processing Unit
50%
Parallel Computer
50%
Mathematics
3D-Reconstruction
100%
Posteriori
50%
Bayesian Inference
50%
Gaussian Distribution
50%
Voxel
50%
Modeling Approach
50%
Real-World Data
50%
3D Shape
50%
Computational Effort
50%
Classical Method
50%