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Main Authors: de Curtò, J., LiCalzi, Cristina, Warin, Julien Tubiana, Gehlert, Jack, Langbein, Brian, Gamboa, Alexandre, Sixbey, Chris, Maguire, William, Fernández, Santiago, Maestroarena, Álvaro, Brenchley, Alex, Maroclo, Logan, Mercado, Philemon, DeJohn, Joshua, Velez, Cesar, Dahmus, Ethan, Steinys, Taylor, Fritz, David, de Zarzà, I.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.21648
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author de Curtò, J.
LiCalzi, Cristina
Warin, Julien Tubiana
Gehlert, Jack
Langbein, Brian
Gamboa, Alexandre
Sixbey, Chris
Maguire, William
Fernández, Santiago
Maestroarena, Álvaro
Brenchley, Alex
Maroclo, Logan
Mercado, Philemon
DeJohn, Joshua
Velez, Cesar
Dahmus, Ethan
Steinys, Taylor
Fritz, David
de Zarzà, I.
author_facet de Curtò, J.
LiCalzi, Cristina
Warin, Julien Tubiana
Gehlert, Jack
Langbein, Brian
Gamboa, Alexandre
Sixbey, Chris
Maguire, William
Fernández, Santiago
Maestroarena, Álvaro
Brenchley, Alex
Maroclo, Logan
Mercado, Philemon
DeJohn, Joshua
Velez, Cesar
Dahmus, Ethan
Steinys, Taylor
Fritz, David
de Zarzà, I.
contents This paper presents innovative solutions to critical challenges in planetary and deep-space exploration electronics. We synthesize findings across diverse mission profiles, highlighting advances in: (1) MARTIAN positioning systems with dual-frequency transmission to achieve $\pm$1m horizontal accuracy; (2) artificial reef platforms for Titan's hydrocarbon seas utilizing specialized sensor arrays and multi-stage communication chains; (3) precision orbital rendezvous techniques demonstrating novel thermal protection solutions; (4) miniaturized CubeSat architectures for asteroid exploration with optimized power-to-mass ratios; and (5) next-generation power management systems for MARS rovers addressing dust accumulation challenges. These innovations represent promising directions for future space exploration technologies, particularly in environments where traditional Earth-based electronic solutions prove inadequate. The interdisciplinary nature of these developments highlights the critical intersection of aerospace engineering, electrical engineering, and planetary science in advancing human exploration capabilities beyond Earth orbit.
format Preprint
id arxiv_https___arxiv_org_abs_2506_21648
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Advanced System Engineering Approaches to Emerging Challenges in Planetary and Deep-Space Exploration
de Curtò, J.
LiCalzi, Cristina
Warin, Julien Tubiana
Gehlert, Jack
Langbein, Brian
Gamboa, Alexandre
Sixbey, Chris
Maguire, William
Fernández, Santiago
Maestroarena, Álvaro
Brenchley, Alex
Maroclo, Logan
Mercado, Philemon
DeJohn, Joshua
Velez, Cesar
Dahmus, Ethan
Steinys, Taylor
Fritz, David
de Zarzà, I.
Instrumentation and Methods for Astrophysics
Earth and Planetary Astrophysics
Robotics
Systems and Control
This paper presents innovative solutions to critical challenges in planetary and deep-space exploration electronics. We synthesize findings across diverse mission profiles, highlighting advances in: (1) MARTIAN positioning systems with dual-frequency transmission to achieve $\pm$1m horizontal accuracy; (2) artificial reef platforms for Titan's hydrocarbon seas utilizing specialized sensor arrays and multi-stage communication chains; (3) precision orbital rendezvous techniques demonstrating novel thermal protection solutions; (4) miniaturized CubeSat architectures for asteroid exploration with optimized power-to-mass ratios; and (5) next-generation power management systems for MARS rovers addressing dust accumulation challenges. These innovations represent promising directions for future space exploration technologies, particularly in environments where traditional Earth-based electronic solutions prove inadequate. The interdisciplinary nature of these developments highlights the critical intersection of aerospace engineering, electrical engineering, and planetary science in advancing human exploration capabilities beyond Earth orbit.
title Advanced System Engineering Approaches to Emerging Challenges in Planetary and Deep-Space Exploration
topic Instrumentation and Methods for Astrophysics
Earth and Planetary Astrophysics
Robotics
Systems and Control
url https://arxiv.org/abs/2506.21648