DynamicFusion is a method for reconstructing and tracking non-rigid scenes in real-time by extending KinectFusion. It uses a volumetric truncated signed distance function (TSDF) to integrate depth maps from multiple viewpoints into a global reconstruction. Live depth frames are aligned to a dense surface prediction generated by raycasting the TSDF. This closes the loop between mapping and localization for tracking dynamic, non-rigid scenes.
DynamicFusion is a method for reconstructing and tracking non-rigid scenes in real-time by extending KinectFusion. It uses a volumetric truncated signed distance function (TSDF) to integrate depth maps from multiple viewpoints into a global reconstruction. Live depth frames are aligned to a dense surface prediction generated by raycasting the TSDF. This closes the loop between mapping and localization for tracking dynamic, non-rigid scenes.
【CVPR 2020 メタサーベイ】3D From a Single Image and Shape-From-Xcvpaper. challenge
「CVPR 2020 網羅的サーベイ」により作成された 3D From a Single Image and Shape-From-X エリアのメタサーベイ資料です。
CVPR 2020 網羅的サーベイ: http://xpaperchallenge.org/cv/survey/cvpr2020_summaries/listall/
cvpaper.challengeはコンピュータビジョン分野の今を映し、トレンドを創り出す挑戦です。論文サマリ作成・アイディア考案・議論・実装・論文投稿に取り組み、凡ゆる知識を共有します。2020の目標は「トップ会議に30+本投稿」することです。
http://xpaperchallenge.org/cv/
This document summarizes a presentation about variational autoencoders (VAEs) presented at the ICLR 2016 conference. The document discusses 5 VAE-related papers presented at ICLR 2016, including Importance Weighted Autoencoders, The Variational Fair Autoencoder, Generating Images from Captions with Attention, Variational Gaussian Process, and Variationally Auto-Encoded Deep Gaussian Processes. It also provides background on variational inference and VAEs, explaining how VAEs use neural networks to model probability distributions and maximize a lower bound on the log likelihood.
【CVPR 2020 メタサーベイ】3D From a Single Image and Shape-From-Xcvpaper. challenge
「CVPR 2020 網羅的サーベイ」により作成された 3D From a Single Image and Shape-From-X エリアのメタサーベイ資料です。
CVPR 2020 網羅的サーベイ: http://xpaperchallenge.org/cv/survey/cvpr2020_summaries/listall/
cvpaper.challengeはコンピュータビジョン分野の今を映し、トレンドを創り出す挑戦です。論文サマリ作成・アイディア考案・議論・実装・論文投稿に取り組み、凡ゆる知識を共有します。2020の目標は「トップ会議に30+本投稿」することです。
http://xpaperchallenge.org/cv/
This document summarizes a presentation about variational autoencoders (VAEs) presented at the ICLR 2016 conference. The document discusses 5 VAE-related papers presented at ICLR 2016, including Importance Weighted Autoencoders, The Variational Fair Autoencoder, Generating Images from Captions with Attention, Variational Gaussian Process, and Variationally Auto-Encoded Deep Gaussian Processes. It also provides background on variational inference and VAEs, explaining how VAEs use neural networks to model probability distributions and maximize a lower bound on the log likelihood.