PHiFA—A tool for numerical propagation of high-fidelity astrodynamics

Yang Yang; Erik Klein; Changyong He; Han Cai; Yan Zhang

doi:10.1007/s42064-021-0113-1

PHiFA—A tool for numerical propagation of high-fidelity astrodynamics

Yang Yang^*, Erik Klein, Changyong He, Han Cai, Yan Zhang

^*Corresponding author for this work

School of Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

This paper presents a tool for the numerical propagation of high-fidelity astrodynamics, called PHiFA. The coupled orbit-attitude dynamics for space objects are modeled by considering various types of perturbative forces and torques. Two methods have been implemented to calculate the surface forces: the area matrix method and the beam method. The beam method is more precise as it discretizes the source media (e.g., sunlight and aerodynamic wind) and the surface of the target into multiple rays and finite elements, respectively, and then accumulates the effect of each hit. The PHiFA tool was tested and validated using a 3U CubeSat model and the defunct European environment satellite (Envisat) model. [Figure not available: see fulltext.]

Original language	English
Pages (from-to)	189-204
Number of pages	16
Journal	Astrodynamics
Volume	6
Issue number	2
DOIs	https://doi.org/10.1007/s42064-021-0113-1
Publication status	Published - Jun 2022

Keywords

European environment satellite (Envisat)
beam method
coupled orbit—attitude dynamics
surface force modeling

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10.1007/s42064-021-0113-1

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title = "PHiFA—A tool for numerical propagation of high-fidelity astrodynamics",

abstract = "This paper presents a tool for the numerical propagation of high-fidelity astrodynamics, called PHiFA. The coupled orbit-attitude dynamics for space objects are modeled by considering various types of perturbative forces and torques. Two methods have been implemented to calculate the surface forces: the area matrix method and the beam method. The beam method is more precise as it discretizes the source media (e.g., sunlight and aerodynamic wind) and the surface of the target into multiple rays and finite elements, respectively, and then accumulates the effect of each hit. The PHiFA tool was tested and validated using a 3U CubeSat model and the defunct European environment satellite (Envisat) model. [Figure not available: see fulltext.]",

keywords = "European environment satellite (Envisat), beam method, coupled orbit—attitude dynamics, surface force modeling",

author = "Yang Yang and Erik Klein and Changyong He and Han Cai and Yan Zhang",

note = "Publisher Copyright: {\textcopyright} 2022, Tsinghua University Press.",

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doi = "10.1007/s42064-021-0113-1",

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T1 - PHiFA—A tool for numerical propagation of high-fidelity astrodynamics

AU - Yang, Yang

AU - Klein, Erik

AU - He, Changyong

AU - Cai, Han

AU - Zhang, Yan

PY - 2022/6

Y1 - 2022/6

N2 - This paper presents a tool for the numerical propagation of high-fidelity astrodynamics, called PHiFA. The coupled orbit-attitude dynamics for space objects are modeled by considering various types of perturbative forces and torques. Two methods have been implemented to calculate the surface forces: the area matrix method and the beam method. The beam method is more precise as it discretizes the source media (e.g., sunlight and aerodynamic wind) and the surface of the target into multiple rays and finite elements, respectively, and then accumulates the effect of each hit. The PHiFA tool was tested and validated using a 3U CubeSat model and the defunct European environment satellite (Envisat) model. [Figure not available: see fulltext.]

AB - This paper presents a tool for the numerical propagation of high-fidelity astrodynamics, called PHiFA. The coupled orbit-attitude dynamics for space objects are modeled by considering various types of perturbative forces and torques. Two methods have been implemented to calculate the surface forces: the area matrix method and the beam method. The beam method is more precise as it discretizes the source media (e.g., sunlight and aerodynamic wind) and the surface of the target into multiple rays and finite elements, respectively, and then accumulates the effect of each hit. The PHiFA tool was tested and validated using a 3U CubeSat model and the defunct European environment satellite (Envisat) model. [Figure not available: see fulltext.]

KW - European environment satellite (Envisat)

KW - beam method

KW - coupled orbit—attitude dynamics

KW - surface force modeling

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PHiFA—A tool for numerical propagation of high-fidelity astrodynamics

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