MROM scheme to improve handoff performance in mobile networks
Mobile Router (MR) mobility supported by Network Mobility Basic Support Protocol (NEMO BS) is a Mobile IPv6 (MIPv6) extension that supports Host Mobility. Proposed Multihoming and Route Optimization for MANEMO (MROM) scheme is designed to provide Route Optimization (RO) and Multihomed in NEMO ar...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
International Association of Online Engineering
2020
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| Subjects: | |
| Online Access: | http://irep.iium.edu.my/85852/1/85852_MROM%20Scheme%20to%20Improve%20Handoff.pdf http://irep.iium.edu.my/85852/ https://online-journals.org/index.php/i-jim/article/view/16639/8023 |
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| Summary: | Mobile Router (MR) mobility supported by Network Mobility
Basic Support Protocol (NEMO BS) is a Mobile IPv6 (MIPv6) extension that
supports Host Mobility. Proposed Multihoming and Route Optimization for
MANEMO (MROM) scheme is designed to provide Route Optimization (RO)
and Multihomed in NEMO architectures. This paper proposes two novel
schemes; MANEMO routing scheme and Multihoming-based scheme. These
are to provide support for next generation networks. The proposed MROM
scheme differs from other schemes for NEMO environment because it considers
the requirements of more application flows parameters as packet lost delivery,
handoff delay as well as throughput). Another difference is that not only the
network infrastructure can begin the functionality of flow routing, but also an
Edge Mobile Router (EMR) can do this flow for routing. Moreover, it utilizes
the state of the art and presently active access network to perform the separation
of each flow in mobile network. Thus, proposed MROM exhibits multihoming
features and improves handoff performance by initiating flow-based fast
registration process in NEMO environment. A handoff method is proposed with
enhanced functionalities of the Local Mobility Anchors (LMA), Mobile Routers
(MRs) and signaling messages with a view to achieve continuous connectivity
through handoff in NEMO. Both analytical and simulation approaches are used.
Analytical evaluation is carried out to analyze packet delivery lost and handoff
delay of our proposed scheme. It was also shown that cost of signaling
messages and packet delivery are contributing to total handoff cost. At the
simulation part, network simulator 3 (NS 3) has been used as the tool to get
performance metrics that have been considered like packet delivery ratio,
handoff delay, and packet loss. Our proposed scheme (MROM) has been
benchmarking to the standard NEMO BS Protocol and P-NEMO. In this paper,
we discuss proposed MROM for next generation networks, providing detailed
analysis with a numerical model, proposed MROM, by maximizing the handoff
performance, has been justified to have better mobility support than the
ordinary NEMO BS Protocol and PNEMO.
Keywords—MROM, MANEMO, RO, Multihomed, Handoff. |
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