Media Summary: College of Engineering Honors Capstone Project. Video Presentation for CVPR 2023 paper "Self-Supervised Super-Plane for Neural 3D Reconstruction" This video presents our work--SuperPlane,which has been accepted by VR2021. SuperPlane demonstrates the strong power of ...

Planeformers From Sparse View Planes - Detailed Analysis & Overview

College of Engineering Honors Capstone Project. Video Presentation for CVPR 2023 paper "Self-Supervised Super-Plane for Neural 3D Reconstruction" This video presents our work--SuperPlane,which has been accepted by VR2021. SuperPlane demonstrates the strong power of ... Instance segmentation of planar regions in indoor scenes benefits visual SLAM and other applications such as augmented reality ... SAME: Sparse and Anchored Model Editing - CVPR 2026 Highlight Be one of the first 500 people to sign up with this link and get 20% off your subscription with Brilliant.org!

Video presentation of our CVPR 2023 paper: PlaneDepth: Self-supervised Depth Estimation via Orthogonal

Photo Gallery

PlaneFormers: From Sparse View Planes to 3D Reconstruction
PlaneFormers: From Sparse View Planes to 3D Reconstruction
PlanarRecon: Real-time 3D Plane Detection and Reconstruction from Posed Monocular Videos
[CVPR 2023] Self-Supervised Super-Plane for Neural 3D Reconstruction
SuperPlane: 3D Plane Detection and Description from a Single Image
Experimenting With Reconstruction Using Footage From an Airplane
Shakes on a Plane: Unsupervised Depth Estimation from Unstabilized Photography
ICRA2021,PlaneSegNet:Fast and Robust Plane Estimation Using a Single-stage Instance Segmentation CNN
SAME: Sparse and Anchored Model Editing - CVPR 2026 Highlight
NASA's Weirdest Experimental Plane
[CVPR 2023] PlaneDepth: Self-supervised Depth Estimation via Orthogonal Planes
View Detailed Profile
PlaneFormers: From Sparse View Planes to 3D Reconstruction

PlaneFormers: From Sparse View Planes to 3D Reconstruction

PlaneFormers: From Sparse View Planes

PlaneFormers: From Sparse View Planes to 3D Reconstruction

PlaneFormers: From Sparse View Planes to 3D Reconstruction

College of Engineering Honors Capstone Project.

PlanarRecon: Real-time 3D Plane Detection and Reconstruction from Posed Monocular Videos

PlanarRecon: Real-time 3D Plane Detection and Reconstruction from Posed Monocular Videos

Sixth Workshop on Computer

[CVPR 2023] Self-Supervised Super-Plane for Neural 3D Reconstruction

[CVPR 2023] Self-Supervised Super-Plane for Neural 3D Reconstruction

Video Presentation for CVPR 2023 paper "Self-Supervised Super-Plane for Neural 3D Reconstruction"

SuperPlane: 3D Plane Detection and Description from a Single Image

SuperPlane: 3D Plane Detection and Description from a Single Image

This video presents our work--SuperPlane,which has been accepted by VR2021. SuperPlane demonstrates the strong power of ...

Experimenting With Reconstruction Using Footage From an Airplane

Experimenting With Reconstruction Using Footage From an Airplane

Decided to

Shakes on a Plane: Unsupervised Depth Estimation from Unstabilized Photography

Shakes on a Plane: Unsupervised Depth Estimation from Unstabilized Photography

Project page: http://light.princeton.edu/soap.

ICRA2021,PlaneSegNet:Fast and Robust Plane Estimation Using a Single-stage Instance Segmentation CNN

ICRA2021,PlaneSegNet:Fast and Robust Plane Estimation Using a Single-stage Instance Segmentation CNN

Instance segmentation of planar regions in indoor scenes benefits visual SLAM and other applications such as augmented reality ...

SAME: Sparse and Anchored Model Editing - CVPR 2026 Highlight

SAME: Sparse and Anchored Model Editing - CVPR 2026 Highlight

SAME: Sparse and Anchored Model Editing - CVPR 2026 Highlight

NASA's Weirdest Experimental Plane

NASA's Weirdest Experimental Plane

Be one of the first 500 people to sign up with this link and get 20% off your subscription with Brilliant.org!

[CVPR 2023] PlaneDepth: Self-supervised Depth Estimation via Orthogonal Planes

[CVPR 2023] PlaneDepth: Self-supervised Depth Estimation via Orthogonal Planes

Video presentation of our CVPR 2023 paper: PlaneDepth: Self-supervised Depth Estimation via Orthogonal