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for complementary urine biomarker based analysis.; The objectives of this scholarship are: Design and implement a computer vision algorithm for microscopic image analysis for urine biomarker characterization Validate
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person's body joints, for example, in a single frame or sequence of images. It plays a major role in understanding human movement, having wide-ranging applications in fields such as robotics, human-computer
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of the art in computer vision in microscopic images; - identify and select the appropriate methods for the study in question; - develop the research capacity through the application of the selected methods
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PROGRAMME AND TRAINING: - extend the knowledge of the state of the art in machine learning for lung cancer imaging data; - identify and select the appropriate methods for the study in question; - develop
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person's body joints, for example, in a single frame or sequence of images. It plays a major role in understanding human movement, having wide-ranging applications in fields such as robotics, human-computer
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PRESENTATION OF THE WORK PROGRAMME AND TRAINING: - extend the knowledge of the state of the art in machine learning for lung cancer imaging data; - identify and select the appropriate methods for the study in
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cancer based on a non-invasive methodology. 3. BRIEF PRESENTATION OF THE WORK PROGRAMME AND TRAINING: - Extend the knowledge of the state of the art in machine learning for lung cancer imaging data
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cancer based on a non-invasive methodology. 3. BRIEF PRESENTATION OF THE WORK PROGRAMME AND TRAINING: - extend the knowledge of the state of the art in machine learning for lung cancer imaging data