This paper focuses on reducing communication bandwidth and, consequently, energy consumption in the context of distributed target detection and tracking over a peer-to-peer sensor network. A consensus Bernoulli filter with event-triggered communication is developed by enforcing each node to transmit its local information to the neighbors only when a suitable measure of discrepancy between the current local posterior and the one predictable from the last transmission exceeds a preset threshold. Two information-theoretic criteria, i.e. Kullback-Leibler divergence and Hellinger distance, are adopted in order to measure the discrepancy between random finite set densities. The performance of the proposed event-triggered consensus Bernoulli filter is evaluated through simulation experiments.
Event-triggered consensus Bernoulli filtering / Lin Gao, Giorgio Battistelli, Luigi Chisci; Ping Wei. - ELETTRONICO. - (2018), pp. 84-91. (Intervento presentato al convegno 21st International Conference on Information Fusion, FUSION 2018 tenutosi a Cambridge, UK nel 2018) [10.23919/ICIF.2018.8455613].
Event-triggered consensus Bernoulli filtering
Lin Gao;Giorgio Battistelli;Luigi Chisci;
2018
Abstract
This paper focuses on reducing communication bandwidth and, consequently, energy consumption in the context of distributed target detection and tracking over a peer-to-peer sensor network. A consensus Bernoulli filter with event-triggered communication is developed by enforcing each node to transmit its local information to the neighbors only when a suitable measure of discrepancy between the current local posterior and the one predictable from the last transmission exceeds a preset threshold. Two information-theoretic criteria, i.e. Kullback-Leibler divergence and Hellinger distance, are adopted in order to measure the discrepancy between random finite set densities. The performance of the proposed event-triggered consensus Bernoulli filter is evaluated through simulation experiments.
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