Zeitschriftenartikel:
J. Kenyeres, M. Kenyeres, M. Rupp, P. Farkas:
"Connectivity-based Self-localization in WSNs";
Radioengineering,
22
(2013),
3;
S. 818
- 827.
Kurzfassung deutsch:
Efficient localization methods are among the major
challenges in wireless sensor networks today. In this paper,
we present our so-called connectivity based approach,
i.e, based on local connectivity information, to tackle this
problem. At first the method fragments the network into
larger groups labeled as packs. Based on the mutual connectivity
relations with their surrounding packs, we identify
border nodes as well as the central node. As this first
approach requires some a-priori knowledge on the network
topology, we also present a novel segment-based fragmentation
method to estimate the central pack of the network as
well as detecting so-called corner packs without any a-priori
knowledge. Based on these detected points, the network is
fragmented into a set of even larger elements, so-called segments
built on top of the packs, supporting even more localization
information as they all reach the central node.
Kurzfassung englisch:
Efficient localization methods are among the major
challenges in wireless sensor networks today. In this paper,
we present our so-called connectivity based approach,
i.e, based on local connectivity information, to tackle this
problem. At first the method fragments the network into
larger groups labeled as packs. Based on the mutual connectivity
relations with their surrounding packs, we identify
border nodes as well as the central node. As this first
approach requires some a-priori knowledge on the network
topology, we also present a novel segment-based fragmentation
method to estimate the central pack of the network as
well as detecting so-called corner packs without any a-priori
knowledge. Based on these detected points, the network is
fragmented into a set of even larger elements, so-called segments
built on top of the packs, supporting even more localization
information as they all reach the central node.
Schlagworte:
WSN, distributed algorithms, border nodes, virtual coordinates.
Elektronische Version der Publikation:
http://publik.tuwien.ac.at/files/PubDat_220987.pdf
Erstellt aus der Publikationsdatenbank der Technischen Universität Wien.