Your search keyword '"geostationary satellite"' showing total 5 results

1. Daily dependence of x-band radio signal attenuation between geostationary satellite and earth terminals

Author

I.M. Mytsenko and D.D. Khalameyda

Subjects

geostationary satellite, hydrometeors, satellite converter (lnb), troposphere, Electronics, TK7800-8360

Abstract

Subject and Purpose. Statistical data on how the satellite signal level varies with changes in the characteristics of tropospheric layers and lower-troposphere hydrometeors serve designers a useful guide in the development of systems for diagnosing weather conditions and hydrometeor characteristics. The aim of the work is to generalize results from the long-term research into daily dependences of X-band radio signal attenuation between the geostationary satellite and Earth terminals. On this basis it is possible to find relationship between signal level changes at the point of reception and geophysical atmospheric agents. Methods and methodology. A receiving measuring and recording complex developed by the authors is employed for the purpose of establishing relationship between geostationary satellite signal level at the receiving point and geophysical atmospheric agents. Results. A block-diagram of the receiving measuring and recording complex is presented, its operation described. Geometric parameters of the radio signal path of propagation have been considered. Signal level measuring results obtained using a Hot Bird geostationary satellite in the period from 03 to 17 January 2019 have been generalized and interpreted. Conclusions. X-band radio signal attenuation on the path from a geostationary satellite to the Earth has a daily dependence. The radio signal level variations are not connected with alterations in spatial and technical parameters of the geostationary satellite or receiving equipment. The day and night changes in radio signal level are attributed to different daytime durations and different angles of sunbeam (including twilight) incidence on tropospheric areas associated with the receiving antenna pattern in the propagation direction, which entails changeable temperature regime and moisture content in these areas. Geophysical agents in the highest tropospheric layers insolated from far beyond the horizon can also be interpreted for long-distance tropospheric radio wave propagation in these tropospheric regions.

Published

2021

2. SATELLITE RADIO SYSTEM FOR THE REPUBLIC OF CUBA

Author

W. I. Kaganov and E. P. Pena

Subjects

radio, geostationary satellite, antenna array, Information theory, Q350-390

Abstract

Principles of satellite radio communications system for providing network information "Internet" in any part of the territory of Cuba are discussed. The results of calculation of radio link: a geostationary satellite - ground subscriber with conventional smartphone are discussed. Options phase array antenna placed on a satellite are calculated.

Published

2016

3. METHOD AND FIRST RESULTS OF CALCULATION OF SLANT-RANGE DIFFERENCES TO ACTIVE GEOSTATIONARY TELECOMMUNICATION SATELLITE

Author

F. I. Bushuev, N. A. Kalyuzhny, Ye. S. Sybiryakova, A. V. Shulga, and Yu. M. Gorbanev

Subjects

radio interferometer, geostationary satellite, digital satellite television, Astronomy, QB1-991

Abstract

A method for calculation of slant-range differences to the active geostationary telecommunication satellite (GEO Telecom Satellite) is described in the article. The method is developed in the “Mykolaiv Astronomical Observatory” Research Institute. The results of observation of the “Eutelsat-25C” and “Eutelsat-13B” satellites with two receiving stations of digital satellite TV are discussed. The accuracy of determination of slant-range differences to the GEO Telecom Satellite is presented.

Published

2015

4. Photometrical observations of geostationary satellites on small phase angles

Author

P. P. Sukhov

Subjects

geostationary satellite, photometric of the features, identification, phase angle, Earth's shadow, equinox, Astronomy, QB1-991

Abstract

For determination photometrical and dynamic features geostationary satellites (GSS) required for his identifications as a rule, need long (the half of the year – year) photometrical observations under different positions GSS for observer. The author proposes to carry out photometry GSS times when equatorial satellites (with zero inclination and zero eccentricity) have a small phase angles. That is writing the light curves when GSS entering and output from Earth's shadow near dates equinox, when brightness satellite increases on several magnitude. In this, case possible effectively to use the telescopes with diameter of the mirror 50–70 cm. You can also get much more information about the object than on the long-term observation of large phase angles.

Published

2013

5. Аналитические модели для оценивания возможностей низкоорбитальных космических аппаратов по обнаружению, геолокации и идентификации станций спутниковой связи C-, X-, Ku-, Ka-диапазонов. Часть 4. Аналитическая модель орбитальной группировки низкоорбитальных КА и псевдокосмических аппаратов для наблюдения станций спутниковой связи в локальных районах

Subjects

LEO satellite, космический аппарат на геостационарной орбите, ELINT, станция спутниковой связи, pseudo-satellite, эллипс обнаружения, низкоорбитальный космический аппарат, satellite communications terminal, орбитальная сфера, азимут, радиоэлектронное наблюдение, псевдокосмический аппарат, geostationary satellite, orbital sphere, azimuth, угол места, elevation angle, detection ellipse

Abstract

В статье рассматриваются теоретические аспекты наблюдения станций спутниковой связи с применением низкоорбитальных космических аппаратов радиоэлектронного наблюдения. В основе разработанных моделей возможность прогнозирования направления главного луча диаграммы направленности станций спутниковой связи и определение допустимого угла рассогласования между направлениями на низкоорбитальный космический аппарат радиоэлектронного наблюдения и на геостационарный спутник связи. Оценивание пространственновременных и вероятностных характеристик сделано на основе введённого автором понятия эллипса обнаружения на орбитальной сфере., The article discusses the theoretical aspects of surveillance of satellite communications terminals performed by LEO ELINT satellites. The developed models are based on the ability to predict the direction of the main beam of the antenna radiation pattern of satellite communications terminals and determination of permissible angle of misalignment between directions on LEO ELINT satellite and geostationary communications satellite. Estimation of spacetime and probabilistic characteristics is carried out on the basis of the concept of the detection ellipse on the orbital sphere introduced by the author., №2(44) (2019)

Published

2019