A geostationary orbit will keep the satellite in one area relative to the surface
INSAT stands for Indian National Satellite System. INSAT 1B and INSAT 1C are geostationary communication satellites launched by India to provide telecommunications, broadcasting, meteorology, and search and rescue services.
The three basic requirements for a satellite are: Proper elevation, Proper speed, and Proper orbit. If a satellite does not have these three things it will either float into space or crash into the earth.
Low Earth Orbit (LEO): Earth observation, remote sensing, satellite communication. Medium Earth Orbit (MEO): Global positioning system (GPS). Geostationary Orbit (GEO): Weather monitoring, telecommunications, television broadcasting.
The geostationary satellites of India are INSAT (Indian National Satellite System) series. This series includes satellites like INSAT-3A, INSAT-3C, INSAT-4A, INSAT-4B, and GSAT- series satellites. These satellites provide communication, broadcasting, meteorological, and search and rescue services across India.
Most of the satellites are for communication - such as tv/radio and mobile phones. There are also the satellites of the Global Positioning System and military satellites.
INSAT stands for Indian National Satellite System. INSAT 1B and INSAT 1C are geostationary communication satellites launched by India to provide telecommunications, broadcasting, meteorology, and search and rescue services.
A terrestrial system for satellite communication is one that facilitates. This includes the facilitation of audio, data, and any other communication.
Chris Barret has written: 'Flight control augmentation for AFT CG launch vehicles' 'Spacecraft flight control system design selection process for a geostationary communication satellite' -- subject(s): Control systems, Space vehicles, Torque
A geostationary satellite is an earth-orbiting satellite, placed at an altitude of approximately 35,800 kilometers (22,300 miles) directly over the equator, that revolves in the same direction the earth rotates (west to east). At this altitude, one orbit takes 24 hours, the same length of time as the earth requires to rotate once on its axis. The term geostationary comes from the fact that such a satellite appears nearly stationary in the sky as seen by a ground-based observer. In other words a satellite that orbits a specific part of the earth while the earth is rotating so it looks like the satellite doesn't move. For example if you put a satellite over over the geographic US it will stay over the US and turn with the earth around the axis without ever loosing site of the US.
The three basic requirements for a satellite are: Proper elevation, Proper speed, and Proper orbit. If a satellite does not have these three things it will either float into space or crash into the earth.
it tells us about the disaster before happening
1) The coverage area of a satellite greatly exceeds.2) Transmission cost of a satellite is independent of the distance from the center of the coverage area. 3) Satellite to satellite communication is very precise. 4) Higher bandwidths are available for use.
The geostationary satellites of India are INSAT (Indian National Satellite System) series. This series includes satellites like INSAT-3A, INSAT-3C, INSAT-4A, INSAT-4B, and GSAT- series satellites. These satellites provide communication, broadcasting, meteorological, and search and rescue services across India.
Low Earth Orbit (LEO): Earth observation, remote sensing, satellite communication. Medium Earth Orbit (MEO): Global positioning system (GPS). Geostationary Orbit (GEO): Weather monitoring, telecommunications, television broadcasting.
1.CDMA System 2.cable modem 3.video conferencing 4.in satellite communication
The downlink frequency to Earth, in the context of communication satellites or spacecraft, refers to the frequency at which data is transmitted from the satellite to Earth. The specific frequency used can vary depending on the satellite system and the communication protocol being employed. Generally, downlink frequencies for satellite communication are in the microwave frequency range, typically between 1 to 50 GHz. The choice of downlink frequency is influenced by factors such as transmission range, atmospheric absorption, and regulatory requirements.
Just imagine managing a system of communication satellites which were non-geostationary. Data needs to be sent to one city, one home, but the satellite for the job is different every time. The task would be manageable, but unnecessarily difficult. Further more, metropolises must have priority over small towns- or oceans. New York needs more satellites than Apple Creek Ohio or the Atlantic Ocean. Finally, many satellites serve a very specific audience. Your favorite radio station would almost never come into reception if the satellite broadcasting it is circling the world.