See also: publications, theses, software, data, patents, collaborators, and funders,  or visit these thematic pages: Cancer MIA, SkinIA, AgriTech, NanoscopyAI

Research overview  Our team's research focuses on developing novel computer vision and machine learning methods capable of automatically interpreting images to mimic and complement human vision while being faster, more reproducible, and more accurate. The primary applications of our research are focused on advancing medical technologies and improving healthcare systems through computational analysis of ubiquitous high-dimensional biomedical imaging data. More specifically, we develop computational methods that emulate and augment heavily-trained domain experts under stringent performance guidelines to overcome problems in computer aided diagnostics, robotic and minimally invasive intervention, precision medicine, big data analytics, etc.  

Our computer vision and machine learning methods are designed to primarily solve image segmentation, registration, and classification problems. This in turn entails constructing, optimizing, and validating novel mathematical and computational models of shape, appearance and deformation of complex and dynamic structural and functional data. These models combine explicit encoding of expert knowledge with machine learning from big data. 

Research goals   Developing techniques and systems for prediction of future clinical outcomes, discovery of disease biomarkers,  automated diagnostics,  assisting clinicians and patients,  and modelling and understanding of anatomy and function in healthy and disease states

Research keywords  computer vision; feature detection; image processing, analysis, understanding, segmentation, classification, registration,  and alignment; object detection, recognition, and tracking; motion analysis; shape modelling, analysis, matching, and correspondence; deformable models; geometrical, physical, and statistical modelling; stereo/multi-view object/scene reconstruction; machine learning; feature selection; dimensionality reduction; unsupervised and supervised learning; clustering; classification; regression; structured prediction; support vector machine; decision forest; artificial neural network; deep learning; graphical models; network analysis; optimization; simulation; visualization; augmented reality; uncertainty; user interaction.