Solar System Dynamics with Jet Propulsion Laboratory Ephemeris

Siwei Luo; Wei Yang; Shaolong Chen; Furong Lin

Data Information in Online Environments. 4th EAI International Conference, DIONE 2023, Nanchang, China, November 25–27, 2023, Proceedings

Research Article

Solar System Dynamics with Jet Propulsion Laboratory Ephemeris

Cite: BibTeX Plain Text

@INPROCEEDINGS{10.1007/978-3-031-80713-8_13,
    author={Siwei Luo and Wei Yang and Shaolong Chen and Furong Lin},
    title={Solar System Dynamics with Jet Propulsion Laboratory Ephemeris},
    proceedings={Data Information in Online Environments. 4th EAI International Conference, DIONE 2023, Nanchang, China, November 25--27, 2023, Proceedings},
    proceedings_a={DIONE},
    year={2025},
    month={2},
    keywords={n-body problem Solar system dynamics Fourier transform Fourier series solution Floquet theory},
    doi={10.1007/978-3-031-80713-8_13}
}

Siwei Luo
Wei Yang
Shaolong Chen
Furong Lin
Year: 2025
Solar System Dynamics with Jet Propulsion Laboratory Ephemeris
DIONE
Springer
DOI: 10.1007/978-3-031-80713-8_13

Siwei Luo¹^,*, Wei Yang¹, Shaolong Chen¹, Furong Lin¹

1: Jiangxi Normal University

*Contact email: luosiwei@jxnu.edu.cn

Abstract

The spectrum and orbits of celestial bodies are calculated via Fourier transform, which presents fascinating spectrum and behavior of this complicated solar system dynamics. This study investigates the multiple frequencies and Fourier series solution of celestial bodies’ orbits based on data science approach. The Sun, Mercury, Venus, Earth, Moon, Mars and Jupiter’s orbits are calculated and reported.

Keywords: n-body problem Solar system dynamics Fourier transform Fourier series solution Floquet theory

Published: 2025-02-09
Appears in: SpringerLink

: http://dx.doi.org/10.1007/978-3-031-80713-8_13

Solar System Dynamics with Jet Propulsion Laboratory Ephemeris

Abstract

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