POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS
In recent years, many different in-orbit close-range autonomous operations have been developed for multiple purposes, such as rendezvous and docking operations or ADR operations. In both cases, the systems have to calculate the relative position between the spacecraft and the target in order to cont...
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Format: | Article |
Language: | English |
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Copernicus Publications
2022-05-01
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Series: | The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences |
Online Access: | https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B1-2022/23/2022/isprs-archives-XLIII-B1-2022-23-2022.pdf |
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author | L. M. González-deSantos H. González-Jorge M. Sanjurjo-Rivo H. Michinel |
author_facet | L. M. González-deSantos H. González-Jorge M. Sanjurjo-Rivo H. Michinel |
author_sort | L. M. González-deSantos |
collection | DOAJ |
description | In recent years, many different in-orbit close-range autonomous operations have been developed for multiple purposes, such as rendezvous and docking operations or ADR operations. In both cases, the systems have to calculate the relative position between the spacecraft and the target in order to control the orbital manoeuvres and the physic interaction between both systems. One of the sensors used for the pose calculation for these operations are LiDAR sensors, developing pose calculation algorithms that process the point cloud acquired by these sensors. One of the main problems for the development and testing of these algorithms is the lack of real data acquired in orbit and the difficulty of acquiring this data. This makes it fundamental to develop a simulator to generate realistic point clouds that can be used to develop and test pose calculation algorithms. This work presents a simulator developed for this purpose, that is the generation of realistic point clouds for algorithm development for pose calculation using LiDAR sensors for space in-orbit close range autonomous operations. The simulator uses the LiDAR sensor specifications, in order to introduces measurement errors and the scanning pattern, and 3D model of the satellite or object that is scanned. |
first_indexed | 2024-04-12T10:55:38Z |
format | Article |
id | doaj.art-662ec23ffc864fba842386e542246251 |
institution | Directory Open Access Journal |
issn | 1682-1750 2194-9034 |
language | English |
last_indexed | 2024-04-12T10:55:38Z |
publishDate | 2022-05-01 |
publisher | Copernicus Publications |
record_format | Article |
series | The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences |
spelling | doaj.art-662ec23ffc864fba842386e5422462512022-12-22T03:36:06ZengCopernicus PublicationsThe International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences1682-17502194-90342022-05-01XLIII-B1-2022232910.5194/isprs-archives-XLIII-B1-2022-23-2022POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONSL. M. González-deSantos0H. González-Jorge1M. Sanjurjo-Rivo2H. Michinel3Engineering Physics Group. School of Aerospace Engineering, University of Vigo, Campus Ourense, 32004 Ourense, SpainEngineering Physics Group. School of Aerospace Engineering, University of Vigo, Campus Ourense, 32004 Ourense, SpainDepartment of Bioengineering and Aerospace Engineering, Universidad Carlos III de Madrid, Leganés, SpainEngineering Physics Group. School of Aerospace Engineering, University of Vigo, Campus Ourense, 32004 Ourense, SpainIn recent years, many different in-orbit close-range autonomous operations have been developed for multiple purposes, such as rendezvous and docking operations or ADR operations. In both cases, the systems have to calculate the relative position between the spacecraft and the target in order to control the orbital manoeuvres and the physic interaction between both systems. One of the sensors used for the pose calculation for these operations are LiDAR sensors, developing pose calculation algorithms that process the point cloud acquired by these sensors. One of the main problems for the development and testing of these algorithms is the lack of real data acquired in orbit and the difficulty of acquiring this data. This makes it fundamental to develop a simulator to generate realistic point clouds that can be used to develop and test pose calculation algorithms. This work presents a simulator developed for this purpose, that is the generation of realistic point clouds for algorithm development for pose calculation using LiDAR sensors for space in-orbit close range autonomous operations. The simulator uses the LiDAR sensor specifications, in order to introduces measurement errors and the scanning pattern, and 3D model of the satellite or object that is scanned.https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B1-2022/23/2022/isprs-archives-XLIII-B1-2022-23-2022.pdf |
spellingShingle | L. M. González-deSantos H. González-Jorge M. Sanjurjo-Rivo H. Michinel POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences |
title | POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS |
title_full | POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS |
title_fullStr | POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS |
title_full_unstemmed | POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS |
title_short | POINT CLOUD SIMULATOR FOR SPACE IN-ORBIT CLOSE RANGE AUTONOMOUS OPERATIONS |
title_sort | point cloud simulator for space in orbit close range autonomous operations |
url | https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B1-2022/23/2022/isprs-archives-XLIII-B1-2022-23-2022.pdf |
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