CytoPacq – On-line Framework for Simulating Fluorescence Microscopy Images

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Publikace nespadá pod Ústav výpočetní techniky, ale pod Fakultu informatiky. Oficiální stránka publikace je na webu muni.cz.
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SVOBODA David KOZUBEK Michal

Rok publikování 2009
Druh Vyžádané přednášky
Fakulta / Pracoviště MU

Fakulta informatiky

Citace
Popis In recent years, the biomedicine, like the other fields of research, has become more and more tied up with the computer science. The vast majority of measurements is acquired, stored and further evaluated using the instruments controlled by the appropriate computer hardware and software. In optical microscopy such an equipment has already become a standard. The whole process of observation can be typically split into four principal parts: 1. Specimen preparation, 2. Image transmission, 3. Image acquisition, 4. Image analysis. In the last step of this process a large variety of image processing methods is used. It is clear that the quality and correctness of results of such methods influence the final evaluation and conclusions. That is why each user has to verify whether the selected method is appropriate and whether it performs correctly. For this purpose, we implemented a simulation toolbox called CytoPacq (http://cbia.fi.muni.cz/simulator/) that is capable of simulating the first three steps: * 3D-CytoGen ... generates the digital phantom (specimen preparation) * 3D-OptiGen ... imitates the whole optical system (image transmission) * 3D-AcquiGen ... simulates the behavior of CCD camera (image acquisition) As a result, CytoPacq generates selected synthetic image data as they would look like if acquired by real microscope and camera. Furthermore, the ideal image of an unaffected specimen is also generated. Hence, the synthetic data can be submitted to any image analysis method and the results of such method can be simply compared to the ideal image and the quality can be evaluated. Currently, three types of objects can be generated (microspheres, nuclei of HL-60 cells, and nuclei of granulocytes). The generation of new types of phantoms (e.g. tissue clusters) is currently under development.
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