Title :
Reconnection strategies in WSN running RPL
Author :
Kampen, Anne-Lena ; Ovsthus, Knut ; Kure, Øivind
Author_Institution :
Bergen Univ. Coll., Bergen, Norway
Abstract :
The contribution of this article is two local recovery methods that may reduce overhead and make a more immediate reconnection of disconnected nodes compared to the soft state global recovery method applied in WSNs running RPL [1]. In addition, we perform an analysis of the implication to better judge the context where local recovery methods should be used. One of our suggested methods is based on reliable local repair and produces a complete connected network in 99.5% of the simulations. The overhead is in the same order of magnitude as applying the local recovery method suggested by J.Guo in [2]. However, the simulation shows that the J.Guo method has a worse reconnection percentage. Our second proposal is based on local-sequence number and creates high recovery overhead. However, it guarantees recovered network connectivity. Thus it makes periodic network recovery superfluous.
Keywords :
wireless sensor networks; WSN running RPL; disconnected nodes reconnection; local recovery method; periodic network recovery; reconnection strategies; recovered network connectivity; soft state global recovery method; Algorithm design and analysis; Delays; Maintenance engineering; Reliability; Routing; Routing protocols; Wireless sensor networks; RPL; WSN; energy; looping; reconnection; recovery;
Conference_Titel :
Local Computer Networks Workshops (LCN Workshops), 2014 IEEE 39th Conference on
Conference_Location :
Edmonton, AB
Print_ISBN :
978-1-4799-3782-0
DOI :
10.1109/LCNW.2014.6927709
