Nikolaos Zioulis's Projects
Tools accompanying the 3D60 spherical panoramas dataset
AVoidX: An Augmented VR Game
Corners For Layout Pytorch implementation using EfficientNet
ECCV 2020
Clone of COCO API - Dataset @ http://cocodataset.org/ - with changes to support Windows build and python3
Convolutional Spatial Propagation Network
SDFDiff: Differentiable Rendering of Signed Distance Fields for 3D Shape Optimization
This repo includes the source code of the fully convolutional depth denoising model presented in https://arxiv.org/pdf/1909.01193.pdf
This is a PyTorch implementation of the ECCV2020 paper "DeepSFM: Structure From Motion Via Deep Bundle Adjustment".
A differentiable 3D renderer with Pytorch, Tensorflow and Matlab interfaces
Detectron2 is FAIR's next-generation platform for object detection, segmentation and other visual recognition tasks.
DIST: Rendering Deep Implicit Signed Distance Function with Differentiable Sphere Tracing (CVPR 2020).
The code and data of DiverseDepth
Differentiable Surface Splatting
ExPose - EXpressive POse and Shape rEgression
C++ extensions in PyTorch
FaceScape: a Large-scale High Quality 3D Face Dataset and Detailed Riggable 3D Face Prediction (CVPR2020)
"HoHoNet: 360 Indoor Holistic Understanding with Latent Horizontal Features" official pytorch implementation.
Human Image Gender Classifier for Expressive Body Capture
VPoser: Variational Human Pose Prior
Code accompanying the paper "360 Surface Regression with a Hyper-Sphere Loss", 3DV 2019
[ECCV'20] Evaluation Code for Holistic 3D Vision Challenge on General Room Layout Estimation Track
A PyTorch Library for Accelerating 3D Deep Learning Research
Official PyTorch implementation of Mapped Convolutions
Computes a halfway alignment field for a pair of signals on a surface.
Partial remeshing of a source mesh to match the geometric features of a target mesh
Mitsuba 2: A Retargetable Forward and Inverse Renderer
Volumetric Human Teleportation (SIGGRAPH 2020 Real-Time Live) Monocular Real-Time Volumetric Performance Capture(ECCV 2020)
A PyTorch implementation of NeRF (Neural Radiance Fields) that reproduces the results.