Mechanical Converged Transparent Satellite for LTE: An Evaluation State-of-the-Art Layer 2 Method

As 4G LTE is based on a full IP architecture, all the network interfaces between the LTE NEs are over IP - even when they are further encapsulated or transported over other technologies. This means that from an LTE point of view we are always dealing with IP links and all issues on LTE interfaces ca...

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Bibliographic Details
Published in:Journal of physics. Conference series 2021-02, Vol.1803 (1)
Main Authors: Damanik, H A, Anggraeni, M, Defisa, T
Format: Article
Language:English
Subjects:
4G mobile communication
Bandwidths
IP (Internet Protocol)
Parameters
Performance evaluation
Physics
Satellite transmission
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Summary:As 4G LTE is based on a full IP architecture, all the network interfaces between the LTE NEs are over IP - even when they are further encapsulated or transported over other technologies. This means that from an LTE point of view we are always dealing with IP links and all issues on LTE interfaces can be analyzed and understood by their effects on the IP layer. This effectively means that we can simplify any scenario (whatever the mix of issues, technologies, layers) to (a combination of) IP Impairments. In this paper, we present basic considerations regarding the support of Bridge Satellite SCPC transmission for the 4G-LTE communication network that will continue the satellite transmission. We design, implement, and evaluate the performance of transport protocol solutions based on the IEEE 802.1Q switching architecture in 4G LTE satellite systems. The resulting parameter values are indexed Σ throughput (bit / s) Σ the amount of data sent (outbound) at the time of delivery. The parameters of the index throughput obtained reach the amount of allocated bandwidth from 3072Kbps. Bandwidth Utilization Index = Σ Bandwidth The use of inbound and outbound reaches 100% and the value of packet loss results is 0-2%. The delay parameter value is 0-2 (ms) on the transmission connectivity.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1803/1/012021