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1. Power system analysis and optimization of a modular experiment Carrier during an analog lunar demo mission on a volcanic environment.

Author

Tsakyridis, Georgios, Lange, Caroline, Jahnke, Stephan Siegfried, Witte, Lars, Toth, Norbert, Scharringhausen, Marco, and Xiros, Nikolas I.

Subjects

*SPACE robotics, *SYSTEM analysis, *MATHEMATICAL optimization, *SPACE flight to the moon

Abstract

Abstract The ROBEX (Robotic Exploration of Extreme Environments) alliance, as formed by the German Helmholtz association, aims to explore synergies and bring together technological challenges and scientific questions between two, up to now unrelated, fields: space and deep sea. The final goal of the alliance targets field tests for available and newly developed instrumentation for the deep sea and on a terrestrial lunar analogue. In this regard, two different test campaigns were conducted, one in the area of Svalbard, Norway and one on mount Etna in Sicily, Italy. The volcano environment served as a lunar analogue, enabling seismic scientific experiments and testing of robotic mobility algorithms. The complete field mission infrastructure consists of a stationary lander, a mobile element and instrument carriers. The modular instrument carrier, commonly referred as Remote Unit (RU), was developed accounting for two different mass requirements: 3 kg (RU3) and 10 kg (RU10). While developed in the frame of ROBEX resumes the idea of a lightweight instrument carrier as developed for the MASCOT (Mobile Asteroid surface scout) mission. The RU houses the instrument, shelters it and provides all essential support functions such as rudimentary thermal control (via foil covering), power provision, data acquisition and handling and data transmission to the control centre. This paper presents theoretical and experimental results of the RU3 power subsystem analysis during the mount Etna field campaign. Drawing upon this analysis, necessary adjustments and revisions to further develop the system towards a more power efficient structure for terrestrial and extraterrestrial usage can be concluded. Highlights • RU suitable for harsh environments-space analog demonstration missions. • Test Data confirmed theoretical estimations for power management and consumption. • RU suitable for planetary exploration investigated (exemplary Moon application). • RU capable of surviving a complete lunar day when outfitted with photovoltaic cells. • A qualitative outlook on needed adaptations, focused on mass savings was considered. [ABSTRACT FROM AUTHOR]

Published

2019