Archivio Istituzionale della RicercaIn this paper, we deal with the localization problem in wireless sensor networks, where a target sensor location must be estimated starting from few measurements of the power present in a radio signal received from sensors with known locations. Inspired by the recent advances in sparse approximation, the localization problem is recast as a block-sparse signal recovery problem in the discrete spatial domain. In this paper, we develop different RSS-fingerprinting localization algorithms and propose a dictionary optimization based on the notion of the coherence to improve the reconstruction efficiency. The proposed protocols are then compared with traditional fingerprinting methods both via simulation and on-field experiments. The results prove that our methods outperform the existing ones in terms of the achieved localization accuracy.
Block-sparsity-based localization in wireless sensor networks / Bay, Alessandro; Carrera, Diego; Fosson, Sophie; Fragneto, Pasqualina; Grella, Marco; Ravazzi, Chiara; Magli, Enrico. - In: EURASIP JOURNAL ON WIRELESS COMMUNICATIONS AND NETWORKING. - ISSN 1687-1499. - ELETTRONICO. - 2015:182(2015), pp. 1-15. [10.1186/s13638-015-0410-6]
Block-sparsity-based localization in wireless sensor networks
BAY, ALESSANDRO;FOSSON, SOPHIE;RAVAZZI, CHIARA;MAGLI, ENRICO
2015
Abstract
In this paper, we deal with the localization problem in wireless sensor networks, where a target sensor location must be estimated starting from few measurements of the power present in a radio signal received from sensors with known locations. Inspired by the recent advances in sparse approximation, the localization problem is recast as a block-sparse signal recovery problem in the discrete spatial domain. In this paper, we develop different RSS-fingerprinting localization algorithms and propose a dictionary optimization based on the notion of the coherence to improve the reconstruction efficiency. The proposed protocols are then compared with traditional fingerprinting methods both via simulation and on-field experiments. The results prove that our methods outperform the existing ones in terms of the achieved localization accuracy.
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2. Post-print / Author's Accepted Manuscript
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https://hdl.handle.net/11583/2617541
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