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Satellite Internet


Satellite Internet services are used in locations where terrestrial Internet access is not available and in locations which move frequently. Internet access via satellite is available globally, including vessels at sea. There are three types of satellite Internet service:

  • one-way multicast,
  • one-way with terrestrial return, and
  • two-way satellite access.
Contents

One-way multicast

One-way multicast satellite Internet systems are used for IP multicast-based data, audio and video distribution. In the U.S., an FCC license is required only for the uplink station and no license is required for users. Note that most Internet protocols will not work correctly over one-way access, since they require a return channel. However, Internet content such as web pages can still be distributed over a one-way system by "pushing" them out to local storage at end user sites, though full interactivity is not possible.

System hardware components

Similar to one-way terrestrial return, satellite Internet may include interfaces to the Public Switched Telephone Network for squawk box applications. An Internet connection is not required, but many applications include an FTP server to queue data for broadcast.

System software components

Most one-way multicast applications require custom programming at the remote sites. The software at the remote site must filter, store, present a selection interface to and display the data. The software at the Teleport must provide access control, priority queueing, sending, and encapsulating of the data.

One-way with terrestrial return

One-way terrestrial return satellite Internet systems are used with traditional dial-up access to the Internet, with outbound data travelling through a telephone modem, but downloads are sent via satellite at a speed near that of broadband Internet access. In the U.S., a FCC license is only required for the uplink station, no license is required for the users.

System hardware components

The transmitting station is called the Teleport (also called "Head End", "Uplink Facility", or "Hub"). It has two components:

  • Internet Connection: The ISP's routers connect to proxy servers which can enforce QoS (Quality of Service) bandwidth limits and guarantees for user traffic. These are then connected to a DVB Encapsulator which is then connector to a DVB-S modem. The RF signal from the DVB-S modem is connected to an upconvertor which is connected via feedline, to the outdoor unit.
  • Satellite uplink: The Block Up Converter (BUC) and Low Noise Block (LNB) connects to the splitter which uses a wave guide (optional) to connect to the OMT which is bolted to the feedhorn which is connected by metal "arms" to the satellite dish and mount.

At the remote locations (Earth Stations) the setup consists of:

Each remote location is also equipped with a modem; the connections for this are as with a conventional dial-up ISP. Two way satellite systems may sometimes use the modem channel in both directions for data where latency is more important than bandwidth, reserving the satellite channel for download data where bandwidth is more important than latency, such as for file transfers .

System software components

Remote sites require a minimum of programming to provide authenication and set Proxy server settings. Filtering is usually provided by the DVB card driver.

Often, non-standard IP stacks are used to address the latency and asymmetry problems of the satellite connection. Data sent over the satellite link is generally also encrypted, as otherwise it would be accessible to anyone with a satellite receiver.

Theory of operation

Remote sites use the Proxy server at the Teleport, which is configured to route all outbound traffic to the QoS Server, which makes sure no user exceeds their allotted bandwidth or monthly traffic limits. Traffic is then sent to the Encapsulator, which puts the IP packets inside of DVB packets. The DVB packets are then sent to the DVB modem and then to the transmitter (BUC).

Two-way

Two-way satellite Internet sends data from remote sites via satellite to a hub, which then sends the data to the Internet. In the U.S., each location requires a license from the FCC to operate. The satellite dish at each location must be precisely positioned to avoid interference with other satellites. The oscillators in some radar detectors can cause interference with these systems. Also, each location must use power management to adjust the amount of transmit power to compensate for things like rain fade. There are several types of two way satellite Internet services TDMA including SCPC.

Uplink speeds rarely exceed one megabit and latency can be up to one second. Satellite phone services such as Iridium also provide data services at the rather tame speed of 2400bps.

See the standard DVB-RCS.

See also

External links

Last updated: 05-21-2005 01:38:11