The Comparison of denoising methods for cardiac diffusion tensor imaging

A comparison of spiral trajectories in a deep learning reconstruction for DENSE

Comparison of Traditional fSNAP and 3D FuseUnet Based fSNAP

Author:Chuyu Liu  Shuo Chen  Rui Li  

Session Type:Digital Poster  

Session Date:Wednesday, 19 May 2021  

Topic:Machine Learning Applications in CV Imaging  

Session Name:Machine Learning Applications in CV Imaging I  

Program Number:2638  

Room Session:Concurrent 2  

Institution:Tsinghua University  

Cross Validation of a Deep Learning-Based ESPIRiT Reconstruction for Accelerated 2D Phase Contrast MRI

Deep Learning based Automatic Multi-Regional Segmentation of the Aorta form 4D Flow MRI

Deep Learning Based ESPIRiT Reconstruction for Highly Accelerated 2D Phase Contrast MRI

Deep phenotyping of individuals with arrhythmogenic cardiomyopathy-associated genetic variants using myocardial T1 and T2 mapping

Deep-Learning epicardial fat quantification using 4-chambers Cardiac MRI segmentation, comparison with total epicardial fat volume

Exercise Effect in Human Brain Evaluated by 3D SWI Depiction of Lenticulostriate Artery with Denoising Deep Learning Reconstruction and 3D pCASL.

Fast personalization of cardiac mechanical models using parametric physics informed neural networks

Author:Stefano Buoso  Thomas Joyce  Sebastian Kozerke  

Session Type:Digital Poster  

Session Date:Wednesday, 19 May 2021  

Topic:Machine Learning Applications in CV Imaging  

Session Name:Machine Learning Applications in CV Imaging I  

Program Number:2650  

Room Session:Concurrent 2  

Institution:ETH Zurich  

Isovolumic Relaxation Time and e' Metrics Evaluated by Deep-learning Analysis of Long-axis Cine: Correlations to Atrial Pressure and Fibrosis

PS-VN:integrating deep learning into model-based algorithm for accelerated reconstructionof real-time cardiac MR imaging

Sensitivity of a Deep Learning Model for Multi-Sequence Cardiac Pathology Segmentation to Input Data Transformations

Unsupervised Tag Removal in Cardiac Tagged MRI using Robust Variational Autoencoder