Title :
A Depth First Forwarding (DFF) Extension for the LOADng Routing Protocol
Author :
Clausen, Thomas ; Jiazi Yi ; Bas, Antonin ; Herberg, Ulrich
Author_Institution :
Lab. d´Inf. (LIX), Ecole Polytech., Palaiseau, France
Abstract :
This paper explores the cooperation between the new standards for "Low Power and Lossy Networks\´\´ (LLNs): IETF RFC 6971, denoted "Depth-First Forwarding in Unreliable Networks\´\´ (DFF) and the ITU-T standardised routing protocol "LOADng\´\´. DFF is a data-forwarding mechanism for increasing reliability of data delivery in networks with dynamic topology and lossy links, using a mechanism similar to a "depth-first search\´\´ for the destination of a packet. LOADng is a reactive on-demand routing protocol used in LLNs. The purpose of this study is to evaluate the benefit of using DFF conjointly with a routing protocol. To this end, the paper compares the performance of LOADng and LOADng+DFF using Ns2 simulations, showing a 20% end-to-end data delivery ratio increase at expense of expected longer path lengths.
Keywords :
routing protocols; telecommunication network reliability; telecommunication network topology; telecommunication standards; DFF; IETF RFC 6971; ITU-T standard; LLN; LOADng routing protocol; Ns2 simulations; data delivery ratio; data-forwarding; depth first forwarding; depth-first search; dynamic topology; lossy networks; low power; reactive on-demand routing protocol; reliability; Data models; Delays; Load modeling; Network topology; Routing; Routing protocols; depth-first forwarding; low power and lossy networks; routing protocol;
Conference_Titel :
Computing and Networking (CANDAR), 2013 First International Symposium on
Conference_Location :
Matsuyama
Print_ISBN :
978-1-4799-2795-1
DOI :
10.1109/CANDAR.2013.72
