Tesi etd-04162015-143232 |
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Tipo di tesi
Tesi di laurea magistrale
Autore
IARDELLA, NICCOLO'
URN
etd-04162015-143232
Titolo
Analysis and performance evaluation of open source solutions for software implementation of LTE networks
Dipartimento
INGEGNERIA DELL'INFORMAZIONE
Corso di studi
INGEGNERIA INFORMATICA
Relatori
relatore Stea, Giovanni
relatore Mingozzi, Enzo
relatore Virdis, Antonio
relatore Mingozzi, Enzo
relatore Virdis, Antonio
Parole chiave
- 4G
- 5G
- cloud RAN
- LTE
- performance evaluation
- SDR
- vRAN
Data inizio appello
08/05/2015
Consultabilità
Non consultabile
Data di rilascio
08/05/2085
Riassunto
With the rapid growth of LTE networks, the radio access network is becoming
more and more costly to deploy, operate, maintain and upgrade.
The most effective answer to this problem lies in the centralization and virtualization of the eNodeBs. This solution is known as Cloud RAN and is one of the key topics in the development of fifth generation networks.
In this work we present the state of the art in the virtualization of LTE nodes, identifying in OpenAirInterface the most complete and reliable software solution. Then, we implement two MAC schedulers and a custom dashboard for real time performance monitoring. Lastly, we evaluate OAI performance and the
effectiveness of resource schedulers in different scenarios.
The results confirm that OpenAirInterface can effectively emulate an LTE network in different load conditions and with different resource schedulers, and is a potential candidate for the commercial deployment of future 5G networks.
more and more costly to deploy, operate, maintain and upgrade.
The most effective answer to this problem lies in the centralization and virtualization of the eNodeBs. This solution is known as Cloud RAN and is one of the key topics in the development of fifth generation networks.
In this work we present the state of the art in the virtualization of LTE nodes, identifying in OpenAirInterface the most complete and reliable software solution. Then, we implement two MAC schedulers and a custom dashboard for real time performance monitoring. Lastly, we evaluate OAI performance and the
effectiveness of resource schedulers in different scenarios.
The results confirm that OpenAirInterface can effectively emulate an LTE network in different load conditions and with different resource schedulers, and is a potential candidate for the commercial deployment of future 5G networks.
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