Conceptual Navigation and Positioning Solution for the Upcoming Lunar Mining and Settlement Missions Based on the Earth’s Mining Experiences: Lunar Regional Navigation Transceiver System-Reference-Cited by-同舟云学术

Conceptual Navigation and Positioning Solution for the Upcoming Lunar Mining and Settlement Missions Based on the Earth’s Mining Experiences: Lunar Regional Navigation Transceiver System

Published:2023-03-07 Issue:3 Volume:13 Page:371
ISSN:2075-163X
Container-title:Minerals
language:en
Short-container-title:Minerals

Author:

Ignjatović Stupar Danijela¹^ORCID,Ogrizović Vukan²^ORCID,Rošer Janez³,Poslončec-Petrić Vesna⁴^ORCID,Vižintin Goran³^ORCID

Affiliation:

1. Department of Space Application, International Space University, 1rue Dominique Cassini, 67400 Illkirch-Graffenstaden, France

2. Faculty of Civil Engineering Subotica, University of Novi Sad, Kozaračka 2A, 24000 Subotica, Serbia

3. Faculty of Natural Sciences and Engineering, University of Ljubljana, Aškerčeva cesta 12, 1000 Ljubljana, Slovenia

4. Faculty of Geodesy, University of Zagreb, Kačićeva 26, 10000 Zagreb, Croatia

Abstract

Precise drilling and excavation in future Lunar mining sites as well as in building habitats areas will be supported by robotized instrumentation. To ensure accurate positioning of facilities or structures, customized surveying instruments will be used to perform measurements needed for calculating locations of surveyed objects. Precise positioning in unexplored areas is difficult, even on the Earth, with all available support. This issue becomes even more complex on the Moon’s surface, considering environmental conditions and the absence of Earth logistics. This paper solves a problem of centimeter-precision positioning on the Moon’s surface. The solution is called Lunar Regional Navigation Transceiver System (LRNTS). It is based on a network of transceiver facilities, holding onboard both navigation transmitters and receivers. Transmitting modules of LRNTS act in the same way as the Global Navigation Satellite Systems (GNSS) space segment, sending navigation messages to the receivers. Receiving modules are needed for self-calibration of LRNTS to calculate their coordinates. In this paper, 12 different LRNTS-simulated configuration setups within Shackleton Crater are tested against positioning accuracy and visibility along the crater. The results show that LRNTS of nine transceivers can achieve sub-centimeter horizontal and better than 2 cm vertical accuracy, with consistent visibility of six and more transceivers throughout the Shackleton Crater.

Funder

Slovenian Research Agency

Publisher

MDPI AG

Subject

Geology,Geotechnical Engineering and Engineering Geology

Link

https://www.mdpi.com/2075-163X/13/3/371/pdf

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