Artificially Generated Training Datasets for Supervised Machine Learning Techniques in Magnetic Resonance Imaging: An Example in Myocardial Segmentation
Machine learning techniques have become increasingly successful over the last few years in medical image analysis and radiology. However, the low availability, relativeness and size of the training data sets required by the associated learning algorithms prevents their further development or delays...
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| Published in | 2019 Computing in Cardiology (CinC) pp. Page 1 - Page 2 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
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Creative Commons
01.09.2019
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| Abstract | Machine learning techniques have become increasingly successful over the last few years in medical image analysis and radiology. However, the low availability, relativeness and size of the training data sets required by the associated learning algorithms prevents their further development or delays their application in clinical practice.This study presented for the first time the development of artificially generated training datasets for supervised learning techniques through the incorporation of a realistic simulation framework in the field of Magnetic Resonance Imaging (MRI). An example in left-ventricle segmentation was utilized and the performance of a fully convolutional network on true cardiac MR data was evaluated. |
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| AbstractList | Machine learning techniques have become increasingly successful over the last few years in medical image analysis and radiology. However, the low availability, relativeness and size of the training data sets required by the associated learning algorithms prevents their further development or delays their application in clinical practice.This study presented for the first time the development of artificially generated training datasets for supervised learning techniques through the incorporation of a realistic simulation framework in the field of Magnetic Resonance Imaging (MRI). An example in left-ventricle segmentation was utilized and the performance of a fully convolutional network on true cardiac MR data was evaluated. |
| Author | Haris, Kostas Filos, Dimitrios Xanthis, Christos G Aletras, Anthony H |
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| Snippet | Machine learning techniques have become increasingly successful over the last few years in medical image analysis and radiology. However, the low availability,... |
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| SubjectTerms | Image analysis Image segmentation Machine learning Magnetic resonance imaging Supervised learning Training Training data |
| Title | Artificially Generated Training Datasets for Supervised Machine Learning Techniques in Magnetic Resonance Imaging: An Example in Myocardial Segmentation |
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