Title :
Implementation and evaluation of the DFF protocol for advanced metering infrastructure (AMI) networks
Author :
Kapoor, Akshay ; Moh, Melody
Author_Institution :
San Jose State Univ., San Jose, CA, USA
Abstract :
This paper evaluates the Depth First Forwarding (DFF) protocol - a reliable data forwarding mechanism for use in low power, lossy networks. Routing protocols used for lossy networks typically take time to converge if the topology changes, during which data failure may occur. DFF was proposed to help reduce this; it reacts to data delivery failures at a node by trying to successfully deliver the packet while giving time for the routing protocol to converge the network state. This paper discusses different implementation strategies for DFF, and confirms by the experimental results that using DFF significantly increases the delivery ratio at the cost of slightly increased path length and RTT (Round Trip Time).
Keywords :
metering; power system reliability; routing protocols; smart power grids; telecommunication network reliability; telecommunication network topology; AMI networks; DFF protocol; RTT; advanced metering infrastructure networks; data delivery failures; data forwarding mechanism; delivery ratio; depth first forwarding protocol; electricity grids; lossy networks; low power networks; network state convergence; path length; round trip time; routing protocols; smart grid; Communication networks; Network topology; Reliability; Routing protocols; Smart grids; Topology; AMI; Depth-first forwarding (DFF) protocol; mesh networks; reliable routing; smart grid; unreliable networks;
Conference_Titel :
Design of Reliable Communication Networks (DRCN), 2015 11th International Conference on the
Conference_Location :
Kansas City, MO
DOI :
10.1109/DRCN.2015.7148993
