The research area of the Computer Vision Systems Group, created in 1987, is quantitative analysis of 2D and 3D images. Dr Ryszard Winiarczyk, a co-founder of the group, was in charge of it for well over a decade. Today, the group is led by dr Agnieszka Tomaka. Our research is published in many reviews and at conferences, but their main output is practical applications in such areas as medicine, forensic science or various branches of the industry. Most members of the group are also active as academic teachers, at the Silesian Institute of Technology (Faculty of Automatic Control, Electronics and Computer Science), as well as at the Universit
Group leader:
Group members:
Submitted
.
Submitted. dpVision: environment for multimodal images. SoftwareX (preprint available at SSRN).
2021
.
2021. Multimodal imagery in forensic incident scene documentation. Sensors. 21(4)
2020
.
2020. Skanery3D - trójwymiarowe obrazowanie powierzchni. Inżynieria Biomedyczna - podstawy i zastosowania; Tom 8 - Obrazowanie Biomedyczne.
.
2020. Integracja obrazowania wielomodalnego w zastosowaniu do wspomagania diagnostyki stomatologicznej, planowania i oceny wyników leczenia. Inżynieria Biomedyczna - podstawy i zastosowania; Tom 8 - Obrazowanie Biomedyczne.
2019
.
2019. Applying computational geometry to designing an occlusal splint. Computational Modeling of Objects Presented in Images. Fundamentals, Methods, and Applications. CompIMAGE 2018. Lecture Notes in Computer Science. vol 10986
.
2019. Dynamic Occlusion Surface Estimation from 4D Multimodal Data. Information Technology in Biomedicine. ITIB 2019. Advances in Intelligent Systems and Computing. vol 1011
.
2019. Applying computational geometry to designing an occlusal splint. Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization (TCIV).
.
2019. The dynamics of the stomatognathic system from 4D multimodal data. In A.Gadomski (ed.): Multiscale Locomotion: Its Active-Matter Addressing Physical Principles.
.
2019. Zastosowanie cyfrowych modeli gnatostatycznych. Opis przypadku / The application of digital gnathostatic models. Case report. In A. Machorowska-Pieniążek (ed.): Ortodoncja w praktyce. Teksty wybrane. Tom 1/2.
2018
.
2018. Methods of Tooth Equator Estimation. Computer and Information Sciences.
2016
.
2016. Multimodal Image Registration for Mandible Motion Tracking. Information Technologies in Medicine: 5th International Conference, ITIB 2016 Kamień Śląski, Poland, June 20 - 22, 2016 Proceedings, Volume 1. :179–191.
.
2016. Modification of the ICP Algorithm for Detection of the Occlusal Area of Dental Arches. Information Technologies in Medicine: 5th International Conference, ITIB 2016 Kamień Śląski, Poland, June 20 - 22, 2016 Proceedings, Volume 1. :97–106.
(488.43 KB)
(488.43 KB) .
2016. Forming an Occlusal Splint to Support the Therapy of Bruxism. Information Technologies in Medicine: 5th International Conference, ITIB 2016 Kamień Śląski, Poland, June 20 - 22, 2016 Proceedings, Volume 2. :267–273. (265.29 KB)
(265.29 KB) .
2016. Progressive reduction of meshes with arbitrary selected points. Man-Machine Interactions 4. :525–533.
2015
.
2015. Multimodal Image Data Integration and Analysis for the Purposes of Orthodontic Diagnosis. Annual Report Polish Academy of Sciences. :59–61.
2014
.
2014. Visualization of heterogenic images of 3D scene. Man-Machine Interacions 3. :291–297.
.
2014. Comparison of photgrammetric techniques for surface reconstruction from images to reconstruction from laser scanning. Theoretical and Applied Informatics. 26:161–178.
.
2014. Mathematical description of movement vs practical interpretations or why some apparently pertinent questions have no meaningful answers. Lecture Notes of the ICB Seminar Novel Methodology of Both Diagnosis and Therapy of Bruxism. :29–33.
.
2014. Assumptions for a software tool to support the diagnosis of the stomatognathic system: data gathering, visualizing compund models and their motion. Novel Methodology of Both diagnosis and Therapy of Bruxism. :51–56.
.
2014. Techniques of processing and segmentation of 3d geometric models for detection of the occlusal area of dental arches. Novel Methodology of Both Diagnosis and Therapy of Bruxism. :57–62.
.
2014. Acquisition of mandible movement with a 3D scanner. Novel Methodology of Both Diagnosis and Therapy of Bruxism. :63–67.
.
2014. Integration of multimodal image data for the purposes of supporting the diagnosis of the stomatognatic system. Novel Methodology of Both Diagnosis and Therapy of Bruxism. :68–75.
2013
.
2013. Using RANSAC for 3D point cloud segmentation. Theoretical and Applied Informatics. 25:105–117.
2012
.
2012. Adapting the RANSAC algorithm to detect 2-nd-degree manifolds in 2D and 3D.. Theoretical and Applied Informatics. 24:151–158.
2011
.
2011. Optimization of Mesh Representation for Progressive Transmission. Theoretical and Applied Informatics. 23:263–275.
2010
.
2010. Purpose of cephalometric computations in craniofacial surgery. Bulletin of the Polish Academy of Sciences: Technical Sciences. 58:403–407.
.
2010. Calculating the position of the observer in 3D using 2D images for the interactive presentation of virtual objects. Theoretical and Applied Informatics. 22:177–186.
.
2010. Applications of Computer Vision in Medicine and Protection of Monuments. Theoretical and Applied Informatics. 22:203–223.
2009
.
2009. Computer Vision Support for the Orthodontic Diagnosis. International Conference on Man-Machine Interactions in Memoriam Adam Mrózek.
.
2009. From museum exhibits to 3D models. Man-Machine Interactions. :477–486.
2008
.
2008. Correction of error in 3D reconstruction induced by CT gantry tilt. Journal of Medical Informatics & Technologies. 12:169–175.
.
2008. System of computer aiding diagnostic of Squint with applying analysis of the signal of the move of the eye. Theoretical and Applied Informatics. 20:3–14.
2007
.
2007. Stability of feature points defined by approximating quadric surfaces. Computer Recognition Systems: Proceedings of 5th International Conference on Computer Recognition Systems CORES'07.
.
2007. Digital dental models and 3D patient photographs registration for orthodontic documentation and diagnostic purposes. Computer Recognition Systems: Proceedings of 5th International Conference on Computer Recognition Systems CORES'07.
.
2007. Automatic Mering of 3D atribute meshes.. Computer Recognition Systems 2, seria: Advances in Soft Computing 45, Part I. :645–652.
2006
.
2006. The application of 3D Computer Vision In Orthodontics. Annual Report Polish Academy of Sciences. :58-59.
.
2006. Automatic Registration and Merging of 3D Surface Scans of Human Head. Medical Informatics & Technology. :75–81.
.
2006. Computer system for the analysis of facial features based on 3d surface scans.. Medical Informatics and Technology. :377–382.
.
2006. System for facial tissue reconstruction based on dowel method. Medical Informatics & Technology. :383–387.
.
2006. Model of the oculomotoric system for diagnosis of Squint. Proceedings of the XI International Conference Mecical Informatics & Technology MIT 2006. :193–198.
.
2006. Bringing into Register Incomplete Range Images of Cultural Artifacts. Machine Graphics and Vision. 15:649–658.
.
2006. Computer System for the Registration and Fusion of Multimodal Images for the Purposes of Orthodontics. Journal of Medical Informatics and Technologies.
2005
.
2005. Using active models for finding landmarks. Journal of Medical Informatics & Technologies. 9:225–232.
.
2005. 3D head surface scanning techniques for orthodontics.. Journal of Medical Informatics & Technologies. 9:123–130.
.
2005. Multiple-view stereo matching of points using epipolar constraints and relaxation. Archiwum Informatyki Teoretycznej i Stosowanej. 17:241–250.
.
2005. The application of 3D surfaces scanning in the facial features analysis. Journal of Medical Informatics & Technologies. 9:233–240.
.
2005. Landmarks Identification Using Active Appearance Model. Archiwum Informatyki Teoretycznej i Stosowanej. 17:235–249.
2004
.
2004. Model of the oculomotoric system for diagnosis of Squint. International Workshop on Biometric Technologies: Special Forum on Modeling and Simulation.
2003
.
2003. Multilayer model of the oculomothoric system for computer based diagnosis of squint. VIII International Conference Medical Informatics & Technologies - MIT'2003.
.
2003. Computer-aided longitudinal description of deformation and its application to craniofacial growth in humans. Archiwum Informatyki Teoretycznej i Stosowanej.
.
2003. Stereovision Techniques for the Three-Dimensional Cephalogram. E-he@lth in Common Europe.
2002
.
2002. System for toolmark analysis in forensic laboratory. Archiwum Informatyki Teoretycznej i Stosowanej. 14:3–16.
.
2002. The active stereovision head: hardware and low-level software. Archiwum Informatyki Teoretycznej i Stosowanej. 14:219–233.
.
2002. Viewpoint selection while exploring a compact polyhedral scene. Archiwum Informatyki Teoretycznej i Stosowanej. 14:297–305.
.
2002. Viewpoint selection while exploring a compact polyhedral scene. International Conference on Computer Vision and Graphics.
.
2002. Detekcja i opis deformacji struktur na podstawie sekwencji obrazów cyfrowych. Działalność Naukowa, PAN, Wybrane zagadnienia.
2001
.
2001. Landmark-based quantitative description of deformation. KOSYR. :119–124.
2000
.
2000. Computer-assisted analysis of striated toolmarks and impressions. Second European Academy of Forensic Science Meeting.
.
2000. Zastosowanie systemu OBER2 w diagnostyce zeza. Journal of Medical Informatics and Technologies vol 5.
.
2000. Symulator widoków wielościanów uzyskiwanych za pomocą głowicy stereowizualnej – implementacja i zastosowania. Archiwum Informatyki Teoretycznej i Stosowanej. 12
1999
.
1999. Programowe platformy dla zagadnień wizji komputerowej. Zeszyty Naukowe Politechniki Śląskiej, Seria: Informatyka. 37:57–81.
.
1999. Mobile Stereovision Strategies. II Krajowa Konferencja ,,Metody i systemy komputerowe w badaniach naukowych i projektowaniu inżynierskim”. :531–536.
.
1999. Software Tool for Microscope Image Comparison (SOMIC). Archiwum Informatyki Teoretycznej i Stosowanej.
.
1999. Model-based 3D-Shape Recovery by Aspect Graphs. Machine Graphics & Vision. 8
.
1999. Komputerowe metody oceny deformacji twarzo-czaszki na podstawie sekwencji teleradiogramów. II Krajowa Konferencja ,,Metody i systemy komputerowe w badaniach naukowych i projektowaniu inżynierskim. :109–114.
.
1999. Trójwymiarowa komputerowa ocena deformacji twarzowej części czaszki w oparciu o analizę par wzajemnie prostopadłych teleradiogramów. Techniki Informacyjne w Medycynie. :163–169.
1998
.
1998. Kryteria pasowania punktów charaktery-stycznych w stereowizji. Zeszyty Naukowe Politechniki Śląskiej, Seria: Informatyka. 35:209–223.
.
1998. Data Types and Operations for Striated Toolmark Identification. Archiwum Informatyki Teoretycznej i Stosowanej. 10:45–56.
.
1998. Wybrane aspekty implementacji analizy wzrostu twarzo-czaszki metodą tensorów. Techniki Informatyczne w Medycynie. :BP–21–31.
.
1998. Displacement and rotation estimation by cluster matching. Archiwum Informatyki Teoretycznej i Stosowanej.
1997
.
1997. Application of the Hough Transform to Detection of Hollow Rectangular Features in an Incomplete Image. Archiwum ITiS. 9
.
1997. Model procesu tworzenia obrazu rentgenowskiego. Zeszyty Naukowe Politechniki Śląskiej.
.
1997. Detekcja i estymacja parametrów ruchu z wykorzystaniem klasteryzacji. Zeszyty Naukowe Politechniki Śląskiej.
1995
.
1995. A new method to threshold images of flat binary scenes under uneven lighting. Computer Analysis of Images and Patterns. :594–599.
