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Performance of a tiered architecture to support end-host mobility in a locator identity split environment

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Performance of a tiered architecture to support end-host mobility in a locator identity split environment. / Mungur, Avinash; Edwards, Christopher James.
Local Computer Networks (LCN), 2015 IEEE 40th Conference on . Florida: IEEE, 2015. p. 446-449.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Mungur, A & Edwards, CJ 2015, Performance of a tiered architecture to support end-host mobility in a locator identity split environment. in Local Computer Networks (LCN), 2015 IEEE 40th Conference on . IEEE, Florida, pp. 446-449. https://doi.org/10.1109/LCN.2015.7366349

APA

Vancouver

Mungur A, Edwards CJ. Performance of a tiered architecture to support end-host mobility in a locator identity split environment. In Local Computer Networks (LCN), 2015 IEEE 40th Conference on . Florida: IEEE. 2015. p. 446-449 doi: 10.1109/LCN.2015.7366349

Author

Mungur, Avinash ; Edwards, Christopher James. / Performance of a tiered architecture to support end-host mobility in a locator identity split environment. Local Computer Networks (LCN), 2015 IEEE 40th Conference on . Florida : IEEE, 2015. pp. 446-449

Bibtex

@inproceedings{ee2693ae8e764fb8a63aff36bc19e600,
title = "Performance of a tiered architecture to support end-host mobility in a locator identity split environment",
abstract = "For all Locator Identity Split protocols to work, a mapping infrastructure is required to maintain the binding between the Locators and Identifiers. However, the mapping infrastructure naturally becomes one of the main scalability concerns when there are a large number of mobile nodes to support. This paper implements and evaluates a tiered architecture in which the mapping infrastructure is divided into a core mapper and an internal mapper such that it can support a large number of mobile nodes and providing up-to-date mapping records. The GSE/8+8 rewriting approach is used to underpin the routing within the tiered architecture. The core mapper uses a Chord DHT and the internal mapper is a hierarchy of routers with rewriting capability. The tiered architecture is simulated in OMNeT++. The simulation results show the tiered architecture is a viable solution for scaling the mapping infrastructure to support a large number of mobile nodes.",
author = "Avinash Mungur and Edwards, {Christopher James}",
year = "2015",
month = oct,
day = "26",
doi = "10.1109/LCN.2015.7366349",
language = "English",
isbn = "978146736770715",
pages = "446--449",
booktitle = "Local Computer Networks (LCN), 2015 IEEE 40th Conference on",
publisher = "IEEE",

}

RIS

TY - GEN

T1 - Performance of a tiered architecture to support end-host mobility in a locator identity split environment

AU - Mungur, Avinash

AU - Edwards, Christopher James

PY - 2015/10/26

Y1 - 2015/10/26

N2 - For all Locator Identity Split protocols to work, a mapping infrastructure is required to maintain the binding between the Locators and Identifiers. However, the mapping infrastructure naturally becomes one of the main scalability concerns when there are a large number of mobile nodes to support. This paper implements and evaluates a tiered architecture in which the mapping infrastructure is divided into a core mapper and an internal mapper such that it can support a large number of mobile nodes and providing up-to-date mapping records. The GSE/8+8 rewriting approach is used to underpin the routing within the tiered architecture. The core mapper uses a Chord DHT and the internal mapper is a hierarchy of routers with rewriting capability. The tiered architecture is simulated in OMNeT++. The simulation results show the tiered architecture is a viable solution for scaling the mapping infrastructure to support a large number of mobile nodes.

AB - For all Locator Identity Split protocols to work, a mapping infrastructure is required to maintain the binding between the Locators and Identifiers. However, the mapping infrastructure naturally becomes one of the main scalability concerns when there are a large number of mobile nodes to support. This paper implements and evaluates a tiered architecture in which the mapping infrastructure is divided into a core mapper and an internal mapper such that it can support a large number of mobile nodes and providing up-to-date mapping records. The GSE/8+8 rewriting approach is used to underpin the routing within the tiered architecture. The core mapper uses a Chord DHT and the internal mapper is a hierarchy of routers with rewriting capability. The tiered architecture is simulated in OMNeT++. The simulation results show the tiered architecture is a viable solution for scaling the mapping infrastructure to support a large number of mobile nodes.

U2 - 10.1109/LCN.2015.7366349

DO - 10.1109/LCN.2015.7366349

M3 - Conference contribution/Paper

SN - 978146736770715

SP - 446

EP - 449

BT - Local Computer Networks (LCN), 2015 IEEE 40th Conference on

PB - IEEE

CY - Florida

ER -