Dinâmica de gases rarefeitos, controle preditivo e robótica autônoma: arquiteturas de integração eletromecânica para manufatura e montagem no espaço (ISAM): Rarefied gas dynamics, predictive control, and autonomous robotics: electromechanical integration architectures for in-space assembly and manufacturing (ISAM)

Jackson David Alberto

doi:10.51473/rcmos.v1i2.2025.2192

Rarefied gas dynamics, predictive control, and autonomous robotics: electromechanical integration architectures for in-space assembly and manufacturing (ISAM)

Authors

Jackson David Alberto ISI/SERC Author

DOI:

https://doi.org/10.51473/rcmos.v1i2.2025.2192

Keywords:

Astronautical Engineering. ISAM. Model Predictive Control. Physical Gas Dynamics. Space Robotics.

Abstract

The transition from space exploration based on monolithic spacecraft to modular architectures requires overcoming severe challenges in robotic dynamics and advanced propulsion. This scientific article investigates the integration of Model Predictive Control (MPC) systems and mass-property simulators in In-Space Assembly and Manufacturing (ISAM) environments. The methodology is based on an analytical-deductive approach, exploring the equations of physical gas dynamics in rarefied flows applied to ion thrusters, as well as the kinematic modeling of electromechanical actuators in microgravity. The study is articulated around seven central axes: the ISAM infrastructure; the mathematical formulation of MPC and LQR control; closed-loop simulation via physics engines (MuJoCo); the analytical expansion of ion plumes; the mechatronic design of sensors and actuators; autonomous navigation based on mapping algorithms; and the strategic impact of these technologies on security and STEM education. The literature and models attest that the continuous variation of the inertia tensor during orbital assembly requires adaptive controllers capable of predicting structural dynamics in real-time. It is concluded that the advancement of space systems engineering depends on the inseparable fusion of plasma physics, autonomous robotics, and computational predictive control.

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Author Biography

Jackson David Alberto, ISI/SERC

Mestrando em Engenharia Astronáutica pela University of Southern California (USC). Pesquisador Adjunto no Information Science Institute (ISI/SERC). - Bacharel em Engenharia Mecânica (Minor em Aeronáutica) pelo Instituto Superior Técnico. Especialista em Mecatrônica pelo Instituto Médio Industrial de Luanda (IMIL).

References

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Published

2025-09-16

Issue

Vol. 1 No. 2 (2025): Edição de Agosto a Dezembro de 2025 – Volume 1, Número 2, RCMOS – Revista Científica Multidisciplinar O Saber

Section

Articles

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How to Cite

ALBERTO, Jackson David. Rarefied gas dynamics, predictive control, and autonomous robotics: electromechanical integration architectures for in-space assembly and manufacturing (ISAM): Rarefied gas dynamics, predictive control, and autonomous robotics: electromechanical integration architectures for in-space assembly and manufacturing (ISAM). Multidisciplinary Scientific Journal The Knowledge, Brasil, v. 1, n. 2, 2025. DOI: 10.51473/rcmos.v1i2.2025.2192. Disponível em: https://submissoesrevistarcmos.com.br/rcmos/article/view/2192. Acesso em: 18 may. 2026.