Erik Bylow scite author profile

Abstract-The ability to quickly acquire 3D models is an essential capability needed in many disciplines including robotics, computer vision, geodesy, and architecture. In this paper we present a novel method for real-time camera tracking and 3D reconstruction of static indoor environments using an RGB-D sensor. We show that by representing the geometry with a signed distance function (SDF), the camera pose can be efficiently estimated by directly minimizing the error of the depth images on the SDF. As the SDF contains the distances to the surface for each voxel, the pose optimization can be carried out extremely fast. By iteratively estimating the camera poses and integrating the RGB-D data in the voxel grid, a detailed reconstruction of an indoor environment can be achieved. We present reconstructions of several rooms using a hand-held sensor and from onboard an autonomous quadrocopter. Our extensive evaluation on publicly available benchmark data shows that our approach is more accurate and robust than the iterated closest point algorithm (ICP) used by KinectFusion, and yields often a comparable accuracy at much higher speed to feature-based bundle adjustment methods such as RGB-D SLAM for up to medium-sized scenes.

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CopyMe3D: Scanning and Printing Persons in 3D

Sturm

Bylow

Kahl

et al. 2013

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Combining Depth Fusion and Photometric Stereo for Fine-Detailed 3D Models

Bylow

Maier

Kahl

2019

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Rank Minimization with Structured Data Patterns

Larsson

Bylow

Kahl

2014

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Erik Bylow

Real-Time Camera Tracking and 3D Reconstruction Using Signed Distance Functions

CopyMe3D: Scanning and Printing Persons in 3D

Combining Depth Fusion and Photometric Stereo for Fine-Detailed 3D Models

Rank Minimization with Structured Data Patterns

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