Title :
DRIFT: Efficient Message Ordering in Ad Hoc Networks Using Virtual Flooding
Author :
Pleisch, Stefan ; Clouser, Thomas ; Nesterenko, Mikhail ; Schiper, André
Author_Institution :
Faculte IC, EPFL, Lausanne
Abstract :
We present DRIFT - a total order multicast algorithm for ad hoc networks with mobile or static nodes. Due to the ad hoc nature of the network, DRIFT uses flooding for message propagation. The key idea of DRIFT is virtual flooding - a way of using unrelated message streams to propagate message causality information in order to accelerate message delivery. We describe DRIFT in detail. We evaluate its performance in a simulator and in a wireless sensor network. In both cases our results demonstrate that the performance of DRIFT exceeds that of the simple total order multicast algorithm designed for wired networks, on which it is based. In simulation at scale, for certain experiment settings, DRIFT achieved speedup of several orders of magnitude
Keywords :
ad hoc networks; electronic messaging; message passing; mobile computing; multicast communication; DRIFT; ad hoc network; causality information; efficient message ordering; message delivery; message propagation; message stream; mobile node; performance evaluation; simulator; static node; total order multicast algorithm; virtual flooding; wireless sensor network; Acceleration; Ad hoc networks; Algorithm design and analysis; Computer science; Floods; Mobile computing; Multicast algorithms; Radio broadcasting; Routing; Wireless sensor networks;
Conference_Titel :
Reliable Distributed Systems, 2006. SRDS '06. 25th IEEE Symposium on
Conference_Location :
Leeds
Print_ISBN :
0-7695-2677-2
DOI :
10.1109/SRDS.2006.18
