Detail publikace
Map-Cache Synchronization and Merged RLOC Probing Study for LISP
VESELÝ, V. RYŠAVÝ, O.
Originální název
Map-Cache Synchronization and Merged RLOC Probing Study for LISP
Anglický název
Map-Cache Synchronization and Merged RLOC Probing Study for LISP
Jazyk
en
Originální abstrakt
Locator/Id Separation Protocol is alternative routing paradigm, which tries to solve limitations (cumbersome support of mobility, multihoming, inbound traffic engineering, renumbering and rapid growth of default-free zone routing tables) of traditional TCP/IP routing model. The presented work deals with a map-cache synchronization and merged RLOC probing, which are outlined and evaluated as possible solutions improving performance and reducing the overhead of LISP. The proposed extension is evaluated using simulation model built for OMNet++ tool.
Anglický abstrakt
Locator/Id Separation Protocol is alternative routing paradigm, which tries to solve limitations (cumbersome support of mobility, multihoming, inbound traffic engineering, renumbering and rapid growth of default-free zone routing tables) of traditional TCP/IP routing model. The presented work deals with a map-cache synchronization and merged RLOC probing, which are outlined and evaluated as possible solutions improving performance and reducing the overhead of LISP. The proposed extension is evaluated using simulation model built for OMNet++ tool.
Dokumenty
BibTex
@article{BUT123626,
author="Vladimír {Veselý} and Ondřej {Ryšavý}",
title="Map-Cache Synchronization and Merged RLOC Probing Study for LISP",
annote="Locator/Id Separation Protocol is alternative routing
paradigm, which tries to solve limitations (cumbersome support
of mobility, multihoming, inbound traffic engineering,
renumbering and rapid growth of default-free zone routing
tables) of traditional TCP/IP routing model. The presented
work deals with a map-cache synchronization and merged
RLOC probing, which are outlined and evaluated as possible
solutions improving performance and reducing the overhead of
LISP. The proposed extension is evaluated using simulation
model built for OMNet++ tool.",
address="NEUVEDEN",
chapter="123626",
edition="NEUVEDEN",
howpublished="online",
institution="NEUVEDEN",
number="34",
volume="2015",
year="2015",
month="october",
pages="494--506",
publisher="NEUVEDEN",
type="journal article - other"
}