Fully decentralized, collaborative multilateration primitives for uniquely localizing WSNs
Künye
Çakıroğlu, O. A. & Erten, C. (2009). Fully decentralized, collaborative multilateration primitives for uniquely localizing WSNs. Paper presented at the , 5682 348-357. doi:10.1007/978-3-642-03417-6_34Özet
We provide primitives for uniquely localizing WSN nodes. The goal is to maximize the number of uniquely localized nodes assuming a fully decentralized model of computation. Each node constructs a cluster of its own and applies unique localization primitives on it. These primitives are based on constructing a special order for multilaterating the nodes within the cluster. The proposed primitives are fully collaborative and thus the number of iterations required to compute the localization is fewer than that of the conventional iterative multilateration approaches. This further limits the messaging requirements. With relatively small clusters and iteration counts we can localize almost all the uniquely localizable nodes.