Ceylan, D.
Co Author Listing * 3D-PRNN: Generating Shape Primitives with Recurrent Neural Networks
* 3DN: 3D Deformation Network
* BodyNet: Volumetric Inference of 3D Human Body Shapes
* Contact-Aware Retargeting of Skinned Motion
* CPFN: Cascaded Primitive Fitting Networks for High-Resolution Point Clouds
* Dance In the Wild: Monocular Human Animation with Neural Dynamic Appearance Synthesis
* Deep Emulator for Secondary Motion of 3D Characters, A
* FreiHAND: A Dataset for Markerless Capture of Hand Pose and Shape From Single RGB Images
* Intuitive, Interactive Beard and Hair Synthesis With Generative Models
* Learning Dense Facial Correspondences in Unconstrained Images
* Learning Generative Models of Shape Handles
* Learning Monocular Face Reconstruction using Multi-View Supervision
* Learning Motion-Dependent Appearance for High-Fidelity Rendering of Dynamic Humans from a Single Camera
* Learning Visibility for Robust Dense Human Body Estimation
* Material Editing Using a Physically Based Rendering Network
* Neural Kinematic Networks for Unsupervised Motion Retargetting
* PlaneNet: Piece-Wise Planar Reconstruction from a Single RGB Image
* Reducing Footskate in Human Motion Reconstruction with Ground Contact Constraints
* Repulsive Force Unit for Garment Collision Handling in Neural Networks, A
* Stochastic Scene-Aware Motion Prediction
* SwapNet: Image Based Garment Transfer
* Task-Generic Hierarchical Human Motion Prior using VAEs
* Transformation-Grounded Image Generation Network for Novel 3D View Synthesis
Includes: Ceylan, D. Ceylan, D.[Duygu]
23 for Ceylan, D.
Ceylan, D.G.[Duy Gu]
Co Author Listing * Capturing Dynamic Textured Surfaces of Moving Targets
* Dense Human Body Correspondences Using Convolutional Networks
* Unsupervised Learning of Intrinsic Structural Representation Points
Includes: Ceylan, D.G.[Duy Gu] Ceylan, D.G.[Duy-Gu]
Ceylan, N.[Nihal]
Co Author Listing * Case Study of Developing An Olive Tree Database For Turkey, A
Ceylan, R.[Rahime]
Co Author Listing * Adrenal tumor characterization on magnetic resonance images