| Title: | Automatická lokalizace a klasifikace jaterních lézí |
| Other Titles: | Automatic localization and classification of liver lesions |
| Authors: | Ryba, Tomáš |
| Advisor: | Železný, Miloš |
| Issue Date: | 2017 |
| Publisher: | Západočeská univerzita v Plzni |
| Document type: | disertační práce |
| URI: | http://hdl.handle.net/11025/28548 |
| Keywords: | diagnostic;liver;image processing;lesion;localization;classification;registration;saliency map;markov random fields;active contours;decision tree |
| Keywords in different language: | diagnostic;liver;image processing;lesion;localization;classification;registration;saliency map;markov random fields;active contours;decision tree |
| Abstract: | Computer-aided diagnostic (CAD) systems are widely used in technical and me\-di\-cal fields. Using the CAD systems in medicine allows the application of image processing methods as well as the methods of artificial intelligence. The purpose of the systems is to assists doctors. A radiologist needs to diagnose a great amount of image data, which is very focus-demanding work. Using a CAD system can support doctor's effectiveness in the sense of processing speed and/or accuracy. The goal of the thesis is to develop a CAD system for the automatic localization and subsequent classification of liver lesions. Liver cancer is mostly diagnosed from a differential diagnosis that consists of analysis of two serial CT screening. Because the screenings are taken at the time interval of several seconds, data registration needs to be performed. In both series the liver region is found using a fully autonomous method based on the Grow Cut algorithm and the results obtained are further refined by a localized active contour method. The liver region is then analyzed and searched for lesions. The localization of the lesion is performed by Markov Random Fields initialized with a combination of saliency maps. The lesions found are then paired-up and classified by a decision tree. |
| Abstract in different language: | Computer-aided diagnostic (CAD) systems are widely used in technical and me\-di\-cal fields. Using the CAD systems in medicine allows the application of image processing methods as well as the methods of artificial intelligence. The purpose of the systems is to assists doctors. A radiologist needs to diagnose a great amount of image data, which is very focus-demanding work. Using a CAD system can support doctor's effectiveness in the sense of processing speed and/or accuracy. The goal of the thesis is to develop a CAD system for the automatic localization and subsequent classification of liver lesions. Liver cancer is mostly diagnosed from a differential diagnosis that consists of analysis of two serial CT screening. Because the screenings are taken at the time interval of several seconds, data registration needs to be performed. In both series the liver region is found using a fully autonomous method based on the Grow Cut algorithm and the results obtained are further refined by a localized active contour method. The liver region is then analyzed and searched for lesions. The localization of the lesion is performed by Markov Random Fields initialized with a combination of saliency maps. The lesions found are then paired-up and classified by a decision tree. |
| Rights: | Plný text práce je přístupný bez omezení. |
| Appears in Collections: | Disertační práce / Dissertations (KKY) |
Files in This Item:
| File | Description | Size | Format | |
|---|---|---|---|---|
| doctoral_thesis_Ryba.pdf | Plný text práce | 35,72 MB | Adobe PDF | View/Open |
| posudky-ODP-ryba.pdf | Posudek oponenta práce | 2,38 MB | Adobe PDF | View/Open |
| protokol-odp-ryba.pdf | Průběh obhajoby práce | 870,3 kB | Adobe PDF | View/Open |
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