University of Salzburg
Salzburg | Website
Short Description
This core facility is formed by the research computers of the research groups of the Department of Computer Science. It includes the various servers of the research laboratories as well as the scientific computers and equipment at the workplaces of the researchers, but not administrative computers or computers of the student labs for teaching. Special equipment is also part of the core facility, such as satellite communication equipment, measuring equipment, sensors, robotics and similar. Also included is purchased scientific software.
Contact Person
Univ.-Prof. Manfred Tscheligi
Research Services
This infrastructure, consisting of research computers and servers as well as scientific computers and software, serves the individual research groups for cooperation and joint research activities with the various partners in the field of scientific computing, robotics, satellite communication as well as oncology and cystology, just to name a few.
Methods & Expertise for Research Infrastructure
This core facility serves the research groups of the department, which include: Data Mining, Image Data Processing, Automatic Classification of Findings in Oncology and Cystology, Scientific Computing, Computational Sciences, Robotics, Natural Computing, Computational Geometry, Satellite Communications, Avionics, Automatic Proving.
Josef-Stefan Institute Ljubljana
University of Linz
University of Innsbruck
Private Medical University Salzburg
Salzburg state hospitals
ESA
DLR
Siemens
General Hospital Vienna
Department of Chemistry and Physics of Materials, University of Salzburg
Salzburg Research
2015-2018
Andreas Uhl (PI)
FWF project P27776
http://wavelab.at/projects-content.shtml
Pervasive and UseR Focused BiomeTrics BordEr ProjeCT (PROTECT)
2016-2019
Andreas Uhl (PI)
EU project P_142210_07
http://wavelab.at/projects-content.shtml
Computer Vision Enabled Multimedia Forensics and People Identification (IDENTITY)
2016-2019
Andreas Uhl (PI)
EU project P_142210_06
http://wavelab.at/projects-content.shtml
Biometric Sensor Forensics
2014-2017
Andreas Uhl (PI)
FWF project P26630
http://wavelab.at/project-biosensors.shtml
Privacy-protected Video Surveillance on Scalable Bitstreams
2012-2014
Andreas Uhl (PI)
FFG Bridge project 832082
http://wavelab.at/project-privsurv.shtml
Endoscope Distortion Correction in (Texture Classification-based) Automated Diagnosis Support Systems
2012-2015
Andreas Uhl (PI)
FWF project 24366
http://wavelab.at/project-undistort.shtml
Cloud Visualization
2011-2014
Martin Held (PI)
FFG project 830029
https://www.cosy.sbg.ac.at/~held/projects/clouds/clouds.html
Straight Skeletons
2013 - 2016
Martin Held (PI)
FWF project P25816-N15)
https://www.cosy.sbg.ac.at/~held/projects/sk/sk.html
2016
Georg Wimmer, Toru Tamaki, J.J.W. Tischendorf, Michael Häfner, Shinji Tanaka, Shigeto Yoshida, Andreas Uhl
Medical Image Analysis 31, pp. 16-36
http://wavelab.at/publications.shtml
Local Fractal Dimension based approaches for Colonic Polyp Classification
2015
Michael Häfner, Toru Tamaki, Shinji Tanaka, Andreas Uhl, Georg Wimmer, Shigeto Yoshida
Medical Image Analysis 26, pp. 92-107
http://wavelab.at/publications.shtml
A systematic evaluation of the scale invariance of texture recognition methods
2015
Andreas Uhl, Georg Wimmer
Pattern Analysis and Applications 18, pp. 945-969, Springer London
http://wavelab.at/publications.shtml
Survey on computer aided decision support for diagnosis of celiac disease
2015
Sebastian Hegenbart, Andreas Uhl, Andreas Vécsei
Computers in Biology and Medicine 65, pp. 348-358, Elsevier, 2015
http://wavelab.at/publications.shtml
Impact of (segmentation) quality on long vs. short-timespan assessments in iris recognition performance
2015
Peter Wild, James Ferryman, Andreas Uhl
IET Biometrics 4(4): 227-235
http://wavelab.at/publications.shtml
Animation of Clouds Based on the Interpolation of Weather Forecast Data
2014
R. Hufnagel, M. Held
2nd EuroVis Workshop on the Visualization in Environmental Sciences (EnvirVis '14), p. 25-29; Swansea, Wales, UK.
Computing Mitered Offset Curves Based on Straight Skeletons
2015
P. Palfrader, M. Held
Computer-Aided Design and Applications, 12(4):414-424
A Simple Algorithm for Computing Positively Weighted Straight Skeletons of Monotone Polygons
2015
T. Biedl, M. Held, S. Huber, D. Kaaser, P. Palfrader
Information Processing Letters, 115(2):243-247
Weighted Straight Skeletons in the Plane
2015
T. Biedl, M. Held, S. Huber, D. Kaaser, P. Palfrader
Computational Geometry: Theory and Applications, 48(2):120-133
Improved Spiral High-Speed Machining of Multiply-Connected Pockets
2014
M. Held, C. Spielberger
Computer-Aided Design and Applications, 11(3):346--357, 2014