We propose a new data dissemination protocol for wireless sensor networks, that basically pulls some additional knowledge about the network in order to subsequently improve data forwarding towards the sink. This extra information is still local, limited and obtained in a distributed manner. This extra knowledge is acquired by only a small fraction of sensors thus the extra energy cost only marginally affects the overall protocol efficiency. The new protocol has low latency and manages to propagate data successfully even in the case of low densities. Furthermore, we study in detail the effect of failures and show that our protocol is very robust. In particular, we implement and evaluate the protocol using large scale simulation, showing that it significantly outperforms well known relevant solutions in the state of the art. © Springer-Verlag Berlin Heidelberg 2006.
Efficient and robust data dissemination using limited extra network knowledge / Chatzigiannakis, Ioannis; Kinalis, A.; Nikoletseas, S.. - STAMPA. - 4026 LNCS:(2006), pp. 218-233. (Intervento presentato al convegno 2nd IEEE International Conference - Distributed Computing in Sensor Systems tenutosi a San Francisco, CA; USA nel 18-20 June 2006) [10.1007/11776178_14].
Efficient and robust data dissemination using limited extra network knowledge
CHATZIGIANNAKIS, IOANNIS;
2006
Abstract
We propose a new data dissemination protocol for wireless sensor networks, that basically pulls some additional knowledge about the network in order to subsequently improve data forwarding towards the sink. This extra information is still local, limited and obtained in a distributed manner. This extra knowledge is acquired by only a small fraction of sensors thus the extra energy cost only marginally affects the overall protocol efficiency. The new protocol has low latency and manages to propagate data successfully even in the case of low densities. Furthermore, we study in detail the effect of failures and show that our protocol is very robust. In particular, we implement and evaluate the protocol using large scale simulation, showing that it significantly outperforms well known relevant solutions in the state of the art. © Springer-Verlag Berlin Heidelberg 2006.| File | Dimensione | Formato | |
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