Riadok 1: | Riadok 1: | ||
{{Person | {{Person | ||
− | | fullname = | + | | fullname = RNDr. Martin Madaras, PhD. |
| caption = Martin Madaras | | caption = Martin Madaras | ||
| image = | | image = | ||
| section = | | section = | ||
− | | position = | + | | position = research assistant |
| phone = | | phone = | ||
− | | room = | + | | room = FTLab |
| email = madaras[[Image:zavinac.gif|@]]fmph.uniba.sk | | email = madaras[[Image:zavinac.gif|@]]fmph.uniba.sk | ||
| web = http://www.sccg.sk/~madaras | | web = http://www.sccg.sk/~madaras | ||
Riadok 18: | Riadok 18: | ||
Polygon Mesh Processing | Polygon Mesh Processing | ||
− | + | Automatic skeletonization of mesh models / Skeleton Based Deformations | |
− | + | Scanning of models / 3D reconstruction | |
+ | |||
+ | Parameterization of 3D models / Texture space deformations | ||
Mesh GPU Tesselation and Displacement Maps | Mesh GPU Tesselation and Displacement Maps | ||
− | + | Motion capture / Human skeleton extraction / Automatic body measurement | |
− | + | ||
− | + | ||
=== Publications === | === Publications === | ||
− | (2012) Skeleton Texture Mapping | + | |
+ | (2017) Optical-Inertial Synchronization of MoCap Suit with Single Camera Setup for Reliable Position Tracking | ||
+ | |||
+ | (2016) GPU-based Approaches for Shape Diameter Function Computation and Its Applications Oriented on Skeleton Extraction | ||
+ | |||
+ | (2016) Fast Parallel Computation of Shape Diameter Function | ||
+ | |||
+ | (2015) Physically Inspired Stretching of Non-rigid Bodies | ||
+ | |||
+ | (2015) Controllable Skeleton-sheets Representation via Shape Diameter Function | ||
+ | |||
+ | (2014) Skeleton-sheets Extraction using Shape Diameter Function | ||
+ | |||
+ | (2014) Extensions for Laplacian-based Skeleton Extraction using Shape Diameter Function | ||
+ | |||
+ | (2014) Skeleton-based Matching for Animation Transfer and Joint Detection | ||
+ | |||
+ | (2014) Skeleton-based Joints Position Detection | ||
+ | |||
+ | (2013) Parallelization of Mesh Contraction and Fairing using OpenCL | ||
+ | |||
+ | (2012) Skeleton-based 3D Surface Parameterization Applied on Texture Mapping | ||
+ | |||
+ | (2012) Skeleton Texture Mapping | ||
(2011) Concept of Skeleton Texture Mapping, poster in Eurographics | (2011) Concept of Skeleton Texture Mapping, poster in Eurographics | ||
− | (2010) Skeleton Extraction from Mesh for Easy Skinning Animation | + | (2010) Skeleton Extraction from Mesh for Easy Skinning Animation |
− | (2010) Extraction of Skinning Data by Mesh Contraction with Collada 1.5 Support | + | (2010) Extraction of Skinning Data by Mesh Contraction with Collada 1.5 Support |
}} | }} |
Verzia zo dňa a času 12:27, 20. november 2017
Martin Madaras
|
Teaching
Research
Polygon Mesh Processing
Automatic skeletonization of mesh models / Skeleton Based Deformations
Scanning of models / 3D reconstruction
Parameterization of 3D models / Texture space deformations
Mesh GPU Tesselation and Displacement Maps
Motion capture / Human skeleton extraction / Automatic body measurement
Publications
(2017) Optical-Inertial Synchronization of MoCap Suit with Single Camera Setup for Reliable Position Tracking
(2016) GPU-based Approaches for Shape Diameter Function Computation and Its Applications Oriented on Skeleton Extraction
(2016) Fast Parallel Computation of Shape Diameter Function
(2015) Physically Inspired Stretching of Non-rigid Bodies
(2015) Controllable Skeleton-sheets Representation via Shape Diameter Function
(2014) Skeleton-sheets Extraction using Shape Diameter Function
(2014) Extensions for Laplacian-based Skeleton Extraction using Shape Diameter Function
(2014) Skeleton-based Matching for Animation Transfer and Joint Detection
(2014) Skeleton-based Joints Position Detection
(2013) Parallelization of Mesh Contraction and Fairing using OpenCL
(2012) Skeleton-based 3D Surface Parameterization Applied on Texture Mapping
(2012) Skeleton Texture Mapping
(2011) Concept of Skeleton Texture Mapping, poster in Eurographics
(2010) Skeleton Extraction from Mesh for Easy Skinning Animation
(2010) Extraction of Skinning Data by Mesh Contraction with Collada 1.5 Support