3D reconstruction from spherical images: A review of techniques, applications, and prospects

TL;DR

This review paper discusses the use of spherical images for 3D reconstruction, highlighting recent techniques, applications, challenges, and future prospects in this emerging field.

Contribution

It provides a comprehensive survey of current methods and challenges in 3D reconstruction from spherical images, which is less explored compared to traditional perspective images.

Findings

Spherical images enable full environment capture, aiding complex scene reconstruction.

Classical pipelines need adaptation for spherical image processing.

The paper identifies promising applications and future research directions.

Abstract

3D reconstruction plays an increasingly important role in modern photogrammetric systems. Conventional satellite or aerial-based remote sensing (RS) platforms can provide the necessary data sources for the 3D reconstruction of large-scale landforms and cities. Even with low-altitude UAVs (Unmanned Aerial Vehicles), 3D reconstruction in complicated situations, such as urban canyons and indoor scenes, is challenging due to frequent tracking failures between camera frames and high data collection costs. Recently, spherical images have been extensively used due to the capability of recording surrounding environments from one camera exposure. In contrast to perspective images with limited FOV (Field of View), spherical images can cover the whole scene with full horizontal and vertical FOV and facilitate camera tracking and data acquisition in these complex scenes. With the rapid evolution and extensive use of professional and consumer-grade spherical cameras, spherical images show great potential for the 3D modeling of urban and indoor scenes. Classical 3D reconstruction pipelines, however, cannot be directly used for spherical images. Besides, there exist few software packages that are designed for the 3D reconstruction of spherical images. As a result, this research provides a thorough survey of the state-of-the-art for 3D reconstruction of spherical images in terms of data acquisition, feature detection and matching, image orientation, and dense matching as well as presenting promising applications and discussing potential prospects. We anticipate that this study offers insightful clues to direct future research.