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Publication
mRPL: Boosting mobility in the Internet of Things
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Advisor(s)
Abstract(s)
The 6loWPAN (the light version of IPv6) and RPL (routing protocol for low-power and lossy
links) protocols have become de facto standards for the Internet of Things (IoT). In this
paper, we show that the two native algorithms that handle changes in network topology
– the Trickle and Neighbor Discovery algorithms – behave in a reactive fashion and
thus are not prepared for the dynamics inherent to nodes mobility. Many emerging and
upcoming IoT application scenarios are expected to impose real-time and reliable mobile
data collection, which are not compatible with the long message latency, high packet loss
and high overhead exhibited by the native RPL/6loWPAN protocols. To solve this problem,
we integrate a proactive hand-off mechanism (dubbed smart-HOP) within RPL, which is
very simple, effective and backward compatible with the standard protocol. We show that
this add-on halves the packet loss and reduces the hand-off delay dramatically to one tenth
of a second, upon nodes’ mobility, with a sub-percent overhead. The smart-HOP algorithm
has been implemented and integrated in the Contiki 6LoWPAN/RPL stack (source-code
available on-line mrpl: smart-hop within rpl, 2014) and validated through extensive
simulation and experimentation.
Description
Keywords
Wireless sensor networks Internet of Things Mobility RPL Hand-off Test-bed
Citation
Publisher
Elsevier