ROUTING :
A
satellite system together with gateways and fixed terrestrial networks as shown
in Figure 5.1 has to route data transmissions from one user to another as any
other network does. Routing in the fixed segment (on earth) is achieved as
usual, while two different solutions exist for the satellite network in space.
If satellites offer ISLs, traffic can be routed between the satellites. If not,
all traffic is relayed to earth, routed there, and relayed back to a satellite.
Assume two users of a satellite network exchange data. If the satellite system
supports ISLs, one user sends data up to a satellite and the satellite forwards
it to the one responsible for the receiver via other satellites. This last
satellite now sends the data down to the earth. This means that only one uplink
and one downlink per direction is needed. The ability of routing within the
satellite network reduces the number of gateways needed on earth. If a
satellite system does not offer ISLs, the user also sends data up to a
satellite, but now this satellite forwards the data to a gateway on earth.
Routing takes place in fixed networks as usual until another gateway is reached
which is responsible for the satellite above the receiver. Again data is sent
up to the satellite which forwards it down to the receiver. This solution
requires two uplinks and two downlinks. Depending on the orbit and the speed of
routing in the satellite network compared to the terrestrial network, the
solution with ISLs might offer lower latency. The drawbacks of ISLs are higher
system complexity due to additional antennas and routing hard- and software for
the satellites.
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