Перегляд за автором "Tymkovych, M. Y."
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Публікація Construction of a statistical three-dimensional model of the human diaphragm on the basis of tomogrpahy findings(Deutscher Wissenschaftsherold German Science Herald № 3/2017, 2017) Аврунін, О. Г.; Tymkovych, M. Y.; Dudenko, V. G.; Kurinnyi, V. V.The work is devoted to the construction of a statistical three-dimensional model of the human diaphragm based on computed tomography data. As a result of the study, a statistical computer model of the human diaphragm was obtained, which in the future will allow us to classify the anatomical structure of the patient's diaphragm and identify possible deviations, as well as the peculiarities of their occurrence.Публікація Development of natural models of human lungs by means of rapid prototyping(RS Global S. z O.O, 2019) Jiao, Hankun; Perepelitsa, I. M.; Nakonecniy, I. M.; Носова, Я. В.; Tymkovych, M. Y.The initial data were spiral-computer tomographic sections of the lung area, presented in the DICOM format. It should be noted that the thickness of the transition surface formed was chosen on the assumption that the volume would be reduced by 5 times. Using the FreeCAD software, the bracket was modeling in real physical dimensions, which combined into one model with the lungs. Next, the resulting model was loaded into specialized software MeshMixer. It allows you to perform various manipulations on three-dimensional models before printing. With its use, the model was dividing in a horizontal plane into five parts. After that, each part converted to G-code using a Cura slicer, and printed with PLA plastic on a 3D printer Wanhao Duplicator i3. Then the printed parts must be join together using a guide.Публікація Experience of development and use of specialized software intended for automated analysis of alginate structures(ХНУРЕ, 2019) Gryshkov, O. P.; Tymkovych, M. Y.; Аврунін, О. Г.; Glasmacher, B.The work is devoted to the problem of three-dimensional reconstruction of alginate capsules and their subsequent analysis. The results of the software are shown and the main stages of its work are described. They include such image processing operations as filtering, segmentation, morphological operations, classification, construction of Hough space with the subsequent analysis stage.Публікація Features of medical image processing(2019) Nosova, Ya. V.; Tymkovych, M. Y.; Kovalova, A. A.; Jiao, Hankun; Shushliapina, N. O.Features of medical image processing are describedПублікація Hardware development of 2D force feedback device for virtual reality in medicine(Харків, ХНУРЕ, 2019) Ba Waqash, A.; Sati, M.; Kostin, D. O.; Tymkovych, M. Y.The development of haptic devices for surgery is an important task. The importance of constructing force-feedback haptic devices for modern medicine is shown. In these theses, a block diagram of such the device is proposed. The next steps are to develop the force feedback device.Публікація Multiscale quantitative analysis of microscopic images of ice crystals(The International Journal of Artificial Organs, 2019) Tymkovych, M. Y.; Аврунін, О. Г.; Gryshkov, O.; Selivanova, K. G.; Mutsenko, V.; Glasmacher, B.It was analyzed multiple images. The results in the first approximation show a 2-fold increase in speed when using our implementation of active contours. At the same time, the segmented areas of crystals correspond to the approach without the use of multi-scale image representation.Публікація Patient-Specific Methods of Designing for Nasal Prosthetics(Кременчуцький авіаційний коледж, 2018) Mafamane, Mariem; Аврунін, О. Г.; Tymkovych, M. Y.To create patient-specific implant it should use some medical imaging techniques, which represent anatomical structures. The implant design techniques are based on a patient's medical data especially imaging data such as X-Ray, CT, MRI, laser scanning,Публікація Software development for 2D force feedback device(Харків, ХНУРЕ, 2019) Sati, M.; Ba Waqash, A.; Tymkovych, M. Y.; Kostin, D. O.The article addresses the issue of developing software for the force-feedback device. Modern software haptic devices analyzed. The need to develop its own software for the exchange and management of this type of device, namely a 2d force feedback device, is shown. The main structural blocks of the developed software are shown. The next step is the implementation of the proposed concepts in the form of the software part of the device that is in development