DocumentCode
585655
Title
Wireless Sensor Network Data Centric Storage routing using Castalia
Author
Ahmed, Khandakar ; Gregory, Mark A.
Author_Institution
RMIT Univ. Melbourne, Melbourne, VIC, Australia
fYear
2012
fDate
7-9 Nov. 2012
Firstpage
1
Lastpage
8
Abstract
In this paper, a Sector Based Clustered Routing (SBCR) protocol for distributed Data-Centric Storage (DCS) in Wireless Sensor Networks (WSN) is proposed. The research identified an optimally synchronized routing algorithm that can achieve high power efficiency whilst reducing updates and query traffic, end-to-end delay, and collisions. To achieve this objective, SBCR is cross pollinated with medium access control (MAC) layer (SMAC and/or TMAC) building a cross-layer optimization model. Based on the network-wide cluster flow distribution, each sector member is assigned a non-overlapping TDMA slot by their sector head for member-head collision free communication while a stateless location based multi-hop routing scheme is used for inter-sector communications. The paper also provides a description of the implementation of SBCR in open-source Castalia simulator. Simulation results show that SBCR yields significant efficiency improvements for DCS and data queries compared to existing approaches such as LEACH and GPSR.
Keywords
access protocols; optimisation; routing protocols; synchronisation; telecommunication congestion control; time division multiple access; wireless sensor networks; DCS; MAC layer; SBCR protocol; WSN; cross-layer optimization model; data queries; distributed data-centric storage; end-to-end delay; high power efficiency; intersector communications; medium access control layer; member-head collision free communication; network-wide cluster flow distribution; nonoverlapping TDMA slot; open-source Castalia simulator; optimally synchronized routing algorithm; query traffic; sector-based clustered routing protocol; stateless location-based multihop routing scheme; wireless sensor network data centric storage routing; Arrays; Energy consumption; Energy efficiency; Routing; Synchronization; Time division multiple access; Wireless sensor networks; data-centric storage; stateless distance routing; wireless sensor network;
fLanguage
English
Publisher
ieee
Conference_Titel
Telecommunication Networks and Applications Conference (ATNAC), 2012 Australasian
Conference_Location
Brisbane, QLD
Print_ISBN
978-1-4673-4408-1
Electronic_ISBN
978-1-4673-4409-8
Type
conf
DOI
10.1109/ATNAC.2012.6398058
Filename
6398058
Link To Document