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Applying computational geometry to designing an occlusal splint (w druku). Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization TCIV.. 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.
Methods of Tooth Equator Estimation. Computer and Information Sciences.. 2018.
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.. 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.. 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.
Multimodal Image Data Integration and Analysis for the Purposes of Orthodontic Diagnosis. Annual Report Polish Academy of Sciences. :59–61.. 2015.
Acquisition of mandible movement with a 3D scanner. Novel Methodology of Both Diagnosis and Therapy of Bruxism. :63–67.. 2014.
Comparison of photgrammetric techniques for surface reconstruction from images to reconstruction from laser scanning. Theoretical and Applied Informatics. 26:161–178.. 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.. 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.
Applications of Computer Vision in Medicine and Protection of Monuments. Theoretical and Applied Informatics. 22:203–223.. 2010.
Purpose of cephalometric computations in craniofacial surgery. Bulletin of the Polish Academy of Sciences: Technical Sciences. 58:403–407.. 2010.
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.. 2009.
Correction of error in 3D reconstruction induced by CT gantry tilt. Journal of Medical Informatics & Technologies. 12:169–175.. 2008.
Automatic Mering of 3D atribute meshes.. Computer Recognition Systems 2, seria: Advances in Soft Computing 45, Part I. :645–652.. 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.
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.
Computer System for the Registration and Fusion of Multimodal Images for the Purposes of Orthodontics. Journal of Medical Informatics and Technologies.. 2006.
System for facial tissue reconstruction based on dowel method. Medical Informatics & Technology. :383–387.. 2006.