A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images

A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images

Topographic products are important for mission operations and scientific research in lunar exploration. In a lunar rover mission, high-resolution digital elevation models are typically generated at waypoints by photogrammetry methods based on rover stereo images acquired by stereo cameras. In case s...

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Main Authors: Man Peng, Kaichang Di, Yexin Wang, Wenhui Wan, Zhaoqin Liu, Jia Wang, Lichun Li
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Remote Sensing
Subjects:
photometric stereo
photogrammetric-photometric stereo
close-range topographic mapping
surface reconstruction
Yutu-2 rover images
lunar exploration
Online Access:https://www.mdpi.com/2072-4292/13/15/2975
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spelling doaj-3fcf940fec114f159735208f1e2d029e2021-08-06T15:30:41ZengMDPI AGRemote Sensing2072-42922021-07-01132975297510.3390/rs13152975A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover ImagesMan Peng0Kaichang Di1Yexin Wang2Wenhui Wan3Zhaoqin Liu4Jia Wang5Lichun Li6State Key Laboratory of Remote Sensing Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Remote Sensing Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Remote Sensing Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Remote Sensing Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100101, ChinaState Key Laboratory of Remote Sensing Science, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100101, ChinaBeijing Aerospace Control Center, Beijing 100094, ChinaBeijing Aerospace Control Center, Beijing 100094, ChinaTopographic products are important for mission operations and scientific research in lunar exploration. In a lunar rover mission, high-resolution digital elevation models are typically generated at waypoints by photogrammetry methods based on rover stereo images acquired by stereo cameras. In case stereo images are not available, the stereo-photogrammetric method will not be applicable. Alternatively, photometric stereo method can recover topographic information with pixel-level resolution from three or more images, which are acquired by one camera under the same viewing geometry with different illumination conditions. In this research, we extend the concept of photometric stereo to photogrammetric-photometric stereo by incorporating collinearity equations into imaging irradiance model. The proposed photogrammetric-photometric stereo algorithm for surface construction involves three steps. First, the terrain normal vector in object space is derived from collinearity equations, and image irradiance equation for close-range topographic mapping is determined. Second, based on image irradiance equations of multiple images, the height gradients in image space can be solved. Finally, the height map is reconstructed through global least-squares surface reconstruction with spectral regularization. Experiments were carried out using simulated lunar rover images and actual lunar rover images acquired by Yutu-2 rover of Chang’e-4 mission. The results indicate that the proposed method achieves high-resolution and high-precision surface reconstruction, and outperforms the traditional photometric stereo methods. The proposed method is valuable for ground-based lunar surface reconstruction and can be applicable to surface reconstruction of Earth and other planets.https://www.mdpi.com/2072-4292/13/15/2975photometric stereophotogrammetric-photometric stereoclose-range topographic mappingsurface reconstructionYutu-2 rover imageslunar exploration
collection DOAJ
language English
format Article
sources DOAJ
author Man Peng
Kaichang Di
Yexin Wang
Wenhui Wan
Zhaoqin Liu
Jia Wang
Lichun Li
spellingShingle Man Peng
Kaichang Di
Yexin Wang
Wenhui Wan
Zhaoqin Liu
Jia Wang
Lichun Li
A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images
Remote Sensing
photometric stereo
photogrammetric-photometric stereo
close-range topographic mapping
surface reconstruction
Yutu-2 rover images
lunar exploration
author_facet Man Peng
Kaichang Di
Yexin Wang
Wenhui Wan
Zhaoqin Liu
Jia Wang
Lichun Li
author_sort Man Peng
title A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images
title_short A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images
title_full A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images
title_fullStr A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images
title_full_unstemmed A Photogrammetric-Photometric Stereo Method for High-Resolution Lunar Topographic Mapping Using Yutu-2 Rover Images
title_sort photogrammetric-photometric stereo method for high-resolution lunar topographic mapping using yutu-2 rover images
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-07-01
description Topographic products are important for mission operations and scientific research in lunar exploration. In a lunar rover mission, high-resolution digital elevation models are typically generated at waypoints by photogrammetry methods based on rover stereo images acquired by stereo cameras. In case stereo images are not available, the stereo-photogrammetric method will not be applicable. Alternatively, photometric stereo method can recover topographic information with pixel-level resolution from three or more images, which are acquired by one camera under the same viewing geometry with different illumination conditions. In this research, we extend the concept of photometric stereo to photogrammetric-photometric stereo by incorporating collinearity equations into imaging irradiance model. The proposed photogrammetric-photometric stereo algorithm for surface construction involves three steps. First, the terrain normal vector in object space is derived from collinearity equations, and image irradiance equation for close-range topographic mapping is determined. Second, based on image irradiance equations of multiple images, the height gradients in image space can be solved. Finally, the height map is reconstructed through global least-squares surface reconstruction with spectral regularization. Experiments were carried out using simulated lunar rover images and actual lunar rover images acquired by Yutu-2 rover of Chang’e-4 mission. The results indicate that the proposed method achieves high-resolution and high-precision surface reconstruction, and outperforms the traditional photometric stereo methods. The proposed method is valuable for ground-based lunar surface reconstruction and can be applicable to surface reconstruction of Earth and other planets.
topic photometric stereo
photogrammetric-photometric stereo
close-range topographic mapping
surface reconstruction
Yutu-2 rover images
lunar exploration
url https://www.mdpi.com/2072-4292/13/15/2975
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