Title :
Mathematical Prediction of Sun-Synchronous Polar LEO Satellite Visions for Earth Stations
Author :
Modiri, Arezoo ; Mohammady, Leila
Author_Institution :
Iran Telecommun. Res. Center, Tehran
Abstract :
Scientists are greatly interested in images sent from remote sensing satellites which are usually launched in sun-synchronous polar low orbits. Each satellite has definite number of daily passes over each ground station; the number of passes and the duration of them depend on the station location and satellite altitude. As the number of passes or the time duration of them increases, the complexity of data archiving devices in the station will also increase. This paper introduces mathematical equations which show the relationship between satellite passes, station´s geographical position and satellite altitude.
Keywords :
mathematical analysis; remote sensing; satellite communication; Earth stations; data archiving devices; geographical position; ground station; mathematical prediction; remote sensing satellites; satellite altitude; satellite passes; station location; sun-synchronous polar LEO satellite visions; sun-synchronous polar low orbits; Artificial satellites; Cause effect analysis; Equations; Low earth orbit satellites; Planets; Remote sensing; Satellite ground stations; Sea surface; Software testing; Weather forecasting; Daily Visions; LEO; Remote Sensing; Satellite Passes; Sun-Synchronous; Time Duration;
Conference_Titel :
Advanced Communication Technology, 2008. ICACT 2008. 10th International Conference on
Conference_Location :
Gangwon-Do
Print_ISBN :
978-89-5519-136-3
DOI :
10.1109/ICACT.2008.4494077
