Implementation of Egypt Sat-1 Satellite Test Center Using LabVIEW
American Journal of Software Engineering and Applications
Volume 4, Issue 5, October 2015, Pages: 80-85
Received: Jul. 22, 2015;
Accepted: Aug. 10, 2015;
Published: Aug. 29, 2015
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Mohamed Elhady Keshk, Testing and Devleopment of Satellites Systems Group, Egyptian Space Program, NARSS, Cairo, Egypt
Mohamed Ibrahim, Testing and Devleopment of Satellites Systems Group, Egyptian Space Program, NARSS, Cairo, Egypt
Noran Tobar, Testing and Devleopment of Satellites Systems Group, Egyptian Space Program, NARSS, Cairo, Egypt
Hend Nabil, Testing and Devleopment of Satellites Systems Group, Egyptian Space Program, NARSS, Cairo, Egypt
Mohamed Elemam, Testing and Devleopment of Satellites Systems Group, Egyptian Space Program, NARSS, Cairo, Egypt
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In each stage of any satellite design cycle, it is required to have test system that verifies the operational functions of each satellite subsystem and the integration operation among the satellite subsystems. Usually, these test systems consist of many hardware’s and these hardware’s are very complicated and occupied large space. The first Egyptian satellite, Egypt Sat-1, has a test center; a place where the satellite integration test sequences are carried out. This center consists of complicated hardware. In this paper a new trend, using LabView tool with National Instrument (NI) chassis, is used to build a satellite test center (STC) prototype that reduce the cost, complexity and occupied area of the STC. So the new trend tests the ability to replace the Egypt Sat-1 test center. The results of this paper shows that the quality of the new trend compared to the existed Egypt Sat-1 test center.
Satellite Test Center, Space, Engineering Model
To cite this article
Mohamed Elhady Keshk,
Implementation of Egypt Sat-1 Satellite Test Center Using LabVIEW, American Journal of Software Engineering and Applications.
Vol. 4, No. 5,
2015, pp. 80-85.
M.S. El-Negamy, M.B. Eteiba 1 and G.M. El-Bayoumi, “Modeling and Simulation of Egyptsat-1 Satellite System Powered by Photovoltaic Module”, Journal of American Science p. 110-116, Vol. 9, No.1, 2013.
Dr. J. Abdul Jaleel, Nazar. A, Omega A R, “Simulation on Maximum Power Point Tracking of the Photovoltaic Module using LabVIEW”, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 1, Issue 3, p.190-199, September 2012.
M. Zahran, M. Okasha and Galina A. Ivanova, “Assessment of Earth Remote Sensing Microsatellite Power Subsystem Capability during Detumbling and Nominal Modes”, Journal of Power Electronics, Vol. 6, No. 1, January 2006.
“Flight and Camera Electronics for a Satellite System - A NI Multisim National Lab Application”, www.ni.com/white-paper/7829/en/, access: Oct 06, 2013.
F. Musso, F. Bresciani, L. Bonino, S. Cesare, “NASA uses NI LabVIEW to save time, reduce costs in automated testing of Micro shutters”, military aerospace solutions Conference, pp. 60-62, 2007.
“Building a Satellite Navigation Test Platform Using the NI Vector Signal Transceiver”www.sine.ni.com/cs/app/doc/p/id/cs-16256.
G. Huang, A. Soghoyan, D. Akopian, P. Chen, A. Samant, “A Land Mobile Channel Modeling in LabVIEW”, IEEE SMC, San Antonio, TX, pp. 4575-4580, 2009.
“Galileo Receiver Testing Based on LabVIEW and NI RF Hardware”, www.sine.ni.com/cs/app/doc/p/id/cs-15551.
Arpine Soghoyan, Grant Huang, Jayanthi Narisetty, David Akopian, “A Comprehensive Labview-Based A-GPS Receiver and Integrated Development, Simulation and Testing Platform”, www.researchgate.net/publication/258567337, jan.2011.
National Instruments FPGA, www.ni.com/fpga/.