DOLCIT Seminar

Friday June 21, 2019 12:00 PM

Unsupervised Learning of Image Correspondences in Medical Image Analysis

Speaker: Adrian Dalca, Machine Learning in Medical Images, Medicine, and Photography, MIT
Location: Annenberg 213

Image alignment, or registration, is fundamental to many tasks in medical image analysis, computer vision, and computational anatomy. Classical image registration methods have undergone decades of technical development, but are often prohibitively slow since they solve an optimization problem for each 3D image pair. In this talk, I will introduce new models that leverage learning paradigms to enable deformable medical image registration orders of magnitude faster than traditional methods.

We start by building a connection between classical and learning-based methods. I will introduce probabilistic generative models and a resulting unsupervised learning-based inference strategy that uses insights from classical registration methods and makes use of recent developments in convolutional neural networks (CNNs). We demonstrate registration accuracy comparable to state-of-the-art 3D image registration, while operating orders of magnitude faster in practice. I will discuss new insights for this class of models, including amortized optimization, leveraging image segmentation maps during training to dramatically improve the state of the art, and use of these models in limited data settings. Moreover, I will talk about a recent result in which we exploit these models to enable dramatically improved single-shot image segmentation. Finally, based on these models I introduce a new learning framework for building deformable templates, which play a fundamental role in these analyses. This learning approach to template construction can yield a new class of on-demand conditional templates, enabling new analysis.

Series RSRG/DOLCIT Seminar Series

Contact: Diane Goodfellow