Title :
Synchronization Inspired from Nature for Wireless Meshed Networks
Author :
Tyrrell, Alexander ; Auer, Gunther ; Bettstetter, Christian
Author_Institution :
DoCoMo Euro-Labs, Munich
Abstract :
In this paper a decentralized synchronization algorithm for ad hoc networks is presented. The algorithm is derived from a model describing synchronization phenomena in biological self-organized systems. Constraints in a wireless environment, such as the fact that a node cannot receive and transmit simultaneously (deafness), the duration of a synchronization message and the delay required at the receiver to decode this message, are taken into account. When applied to meshed networks where nodes have few neighbors, deafness becomes problematic. That is, nodes which are transmitting cannot receive messages, an effect which becomes increasingly severe as the number of neighboring nodes decreases. We propose a delay tolerant synchronization scheme which retains high synchronization rates even in difficult network topologies, with an accuracy only limited by propagation delays
Keywords :
ad hoc networks; decoding; synchronisation; telecommunication network topology; ad hoc networks; biological self-organized systems; decentralized synchronization algorithm; decode; delay tolerant synchronization scheme; network topology; propagation delays; synchronization message; wireless environment; wireless meshed networks; Ad hoc networks; Deafness; Decoding; Mathematical model; Network topology; Oscillators; Payloads; Propagation delay; Synchronization; Wireless application protocol;
Conference_Titel :
Wireless Communications, Networking and Mobile Computing, 2006. WiCOM 2006.International Conference on
Conference_Location :
Wuhan
Print_ISBN :
1-4244-0517-3
DOI :
10.1109/WiCOM.2006.244
