Lei Li's starred repositories
zotero-style
Ethereal Style for Zotero
InstantMesh
InstantMesh: Efficient 3D Mesh Generation from a Single Image with Sparse-view Large Reconstruction Models
Pointnet2_PyTorch
PyTorch implementation of Pointnet2/Pointnet++
OpticalFlow_Visualization
Python optical flow visualization following Baker et al. (ICCV 2007) as used by the MPI-Sintel challenge
Pixel2Mesh
A complete Pixel2Mesh implementation in PyTorch
humanshape
3D Human Shape Models
Pixel2Mesh-Pytorch
Final project for RecVis 18
MeshDeformNet
A deep-learning approach for direct whole-heart mesh reconstruction
SkeletonMerger
Code repository for paper `Skeleton Merger: an Unsupervised Aligned Keypoint Detector`.
Joint-Motion-Estimation-and-Segmentation
[MICCAI'18] Joint Learning of Motion Estimation and Segmentation for Cardiac MR Image Sequences
ACL-SPC_PyTorch
Official implementation of the paper "ACL-SPC: Adaptive Closed-Loop system for Self-Supervised Point Cloud Completion" (CVPR 2023)
CardiacMotionFlow
Code for the analysis of cardiac motion and cardiac pathology classification
4DHeartModel
Framework to enable the inference of a high resolution personalized 4D (3D plus time) surface mesh of the cardiac structures from 2D echocardiography video data.
4D-Myocardium-Reconstruction-with-Decoupled-Motion-and-Shape-Model
This repository contains the code for the ICCV'2023 paper "4D Myocardium Reconstruction with Decoupled Motion and Shape Model".
Thunderbolt.jl
A modular shared-memory high-performance framework for multiscale cardiac multiphysics simulations.
BIGM-motion-tracking
[MedIA'22] Generative myocardial motion tracking via latent space exploration with biomechanics-informed prior
Cardiac-Digital-Twin-Purkinje
Digital Twinning of the Human Ventricular Activation Sequence to Clinical 12-Lead ECGs and Magnetic Resonance Imaging Using Realistic Purkinje Networks for in Silico Clinical Trials
Electrophysiology
Programs related to the Computational Electrophysiology topic
Finitewave
Simple package for a wide range of tasks in modeling cardiac electrophysiology using finite-difference methods.