When AI learns human physiology…

Designing an inverse modeling approach to estimate the parameters of a computational model of cardiac function can be challenging, in particular when available clinical data is sparse and noisy. Instead, we propose to train an artificial agent exactly like a new user is trained: first learn how the computational model behaves by random and playful experiments. Then let it devise the optimal strategy for parameter identification through reinforcement learning. Applied on several problems, the agent could learn its new task and perform it much more efficiently and accurately than available inverse modeling strategies!

A Self-Taught Artificial Agent for Multi-Physics Computational Model Personalization“, D. Neumann et al., Medical Image Analysis 2016

MICCAI 2013 Awards

A big congratulation to Oliver Zettinig who won the prestigious MICCAI Young Scientist Award for the paper “Towards patient-specific models of cardiac electrophysiology thanks to a clever personalization of a concise model from clinical ECG measurements”!

Congratulation also to Ozan Oktay, who also got the honorable mention for his paper “Biomechanically Driven Registration of Pre- to Intra- Operative 3D Images for Laparoscopic Surgery”.

More information here.

Great job!