Capturing High Rate Satellite Data. An Analysis of Lossless, Persistent Reception, Local Storage and Transmission of High Rate Satellite Data From Time Window Based Datastream
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https://hdl.handle.net/10037/9372Dato
2016-05-31Type
Master thesisMastergradsoppgave
Forfatter
Mæland, RubenSammendrag
Satellites generate data through their instruments as they hover in orbit. Satel-
lite data is widely used in weather forecasts, environmental science, for military
purposes, earth observation and more. The world depend on satellite data, for
many purposes. As satellite technology moves forward, the amount of data generated per orbit
increases. Satellites are not equipped with unlimited storage capacity, meaning
that the generated data must be transmitted to a ground station at some point
in orbit. Satellites transmit data through the use of radio waves, and have
the later years used X-, S-, L-band, among others. An increase in generated
data, require an increase in the transfer rates between the satellite and ground
station. Therefore, the satellite industry will, in near future, build satellites
using KA-band using a higher frequency area providing larger bandwidth. The
increase in generated data forces the increase in data transmission rate, which
require high performance ground stations that can capture incoming high rate data. A ground station’s purpose is to capture the received satellite data, without data
loss. Until today several capturing systems provide rates between 1 and 3Gbps,
depending on the band used, modulation, whether near real-time processing is
offered or not and whether data is actually captured and stored within the same
chassis[60, 4, 73, 36]. With KA-band, the rates can exceed 10Gbps, and it is the
industry mission to provide systems that can capture such data rates. This thesis evaluate the next generation technology used to capture data,
determining the bottleneck in the setup used today through the analysis tool
developed, and further resolving them. The changes suggested in this thesis
are tested and evaluated, and show that the next generation servers can capture
10Gbps with the hardware and software available, which is higher than any
other related system found.
Forlag
UiT Norges arktiske universitetUiT The Arctic University of Norway
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