GEO communication satellite engineering design code

Zeynab Aghajani; Ehsan Zabihian; Mehran Mirshams

GEO communication satellite engineering design code

Zeynab Aghajani, Ehsan Zabihian, Mehran Mirshams

Mechanical And Aerospace Engineering

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

Abstract

The significance and the wide use of geostationary communication satellites and the long hours of work in the process of their conceptual design was the main motivation to develop a software based on the statistical design to reduce the time spent on the conceptual design phase. This software is based on the statistical and parametric design method. The statistical model used in this software includes a database of 147 satellites launched between 2010 and 2016. To increase the accuracy of the software, the combined parametric model has been used from selected design references. The software is based on MATLAB and to make it more user friendly, the graphical GUI was used. In this article, the design of the software is presented and there is focus on the design and verification method. The accuracy of this tool was amply verified through a flight prototype, indicating the average error of 16% in the obtained results.

Original language	English
Article number	33
Pages (from-to)	41-54
Number of pages	14
Journal	Journal of space science and technology
Volume	10
Issue number	4
Publication status	Published - 31 Mar 2018

Keywords

validation
communication satellites
GEO orbit
statistical models
parametric models

Cite this

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title = "GEO communication satellite engineering design code",

abstract = "The significance and the wide use of geostationary communication satellites and the long hours of work in the process of their conceptual design was the main motivation to develop a software based on the statistical design to reduce the time spent on the conceptual design phase. This software is based on the statistical and parametric design method. The statistical model used in this software includes a database of 147 satellites launched between 2010 and 2016. To increase the accuracy of the software, the combined parametric model has been used from selected design references. The software is based on MATLAB and to make it more user friendly, the graphical GUI was used. In this article, the design of the software is presented and there is focus on the design and verification method. The accuracy of this tool was amply verified through a flight prototype, indicating the average error of 16\% in the obtained results.",

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T1 - GEO communication satellite engineering design code

AU - Aghajani, Zeynab

AU - Zabihian, Ehsan

AU - Mirshams, Mehran

PY - 2018/3/31

Y1 - 2018/3/31

N2 - The significance and the wide use of geostationary communication satellites and the long hours of work in the process of their conceptual design was the main motivation to develop a software based on the statistical design to reduce the time spent on the conceptual design phase. This software is based on the statistical and parametric design method. The statistical model used in this software includes a database of 147 satellites launched between 2010 and 2016. To increase the accuracy of the software, the combined parametric model has been used from selected design references. The software is based on MATLAB and to make it more user friendly, the graphical GUI was used. In this article, the design of the software is presented and there is focus on the design and verification method. The accuracy of this tool was amply verified through a flight prototype, indicating the average error of 16% in the obtained results.

AB - The significance and the wide use of geostationary communication satellites and the long hours of work in the process of their conceptual design was the main motivation to develop a software based on the statistical design to reduce the time spent on the conceptual design phase. This software is based on the statistical and parametric design method. The statistical model used in this software includes a database of 147 satellites launched between 2010 and 2016. To increase the accuracy of the software, the combined parametric model has been used from selected design references. The software is based on MATLAB and to make it more user friendly, the graphical GUI was used. In this article, the design of the software is presented and there is focus on the design and verification method. The accuracy of this tool was amply verified through a flight prototype, indicating the average error of 16% in the obtained results.

KW - validation

KW - communication satellites

KW - GEO orbit

KW - statistical models

KW - parametric models

UR - https://www.jsstpub.com/article_59718.html

M3 - Article

SN - 2423-4516

VL - 10

SP - 41

EP - 54

JO - Journal of space science and technology

JF - Journal of space science and technology

IS - 4

M1 - 33

ER -

GEO communication satellite engineering design code

Abstract

Keywords

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