We consider a network of distributed underwater drones for monitoring industrially relevant underwater structures, such as renewable energy storage. The task is to cover and map a three-dimensional marine environment by identifying in the field objects of interest that prevent navigation, structure deployment or monitoring applications. Each drone has a noisy sensor that perform measurements of the absolute position of the underwater objects. To guide the drones, we use the 3D Voronoi tessellation for static coverage and estimation. We consider a distributed iterative scheme, based on distributed average consensus, to compute the maximum-likelihood estimate of the quantities of interest. This scheme does not involve explicit point-to-point message passing or routing; instead, it diffuses the measurements across the network by updating each node estimate with a weighted average of its neighbours estimates. At each step, every node can compute a local weighted least-squares estimate, which converges to the global maximum-likelihood solution. This scheme, robust to unreliable communication links, is shown working in a network with dynamically changing topology, which is a customary condition for moving platforms.

Unveiling the Undersea: A Collaborative Approach to Monitoring Underwater Objects / Santoro, L.; Brunelli, D.; Fontanelli, D.. - 156:(2024), pp. 76-81. (Intervento presentato al convegno MetroInd4.0 & IoT tenutosi a Firenze, Italia nel 29-31 May 2024) [10.1109/MetroInd4.0IoT61288.2024.10584128].

Unveiling the Undersea: A Collaborative Approach to Monitoring Underwater Objects

Santoro L.;Brunelli D.;Fontanelli D.
2024-01-01

Abstract

We consider a network of distributed underwater drones for monitoring industrially relevant underwater structures, such as renewable energy storage. The task is to cover and map a three-dimensional marine environment by identifying in the field objects of interest that prevent navigation, structure deployment or monitoring applications. Each drone has a noisy sensor that perform measurements of the absolute position of the underwater objects. To guide the drones, we use the 3D Voronoi tessellation for static coverage and estimation. We consider a distributed iterative scheme, based on distributed average consensus, to compute the maximum-likelihood estimate of the quantities of interest. This scheme does not involve explicit point-to-point message passing or routing; instead, it diffuses the measurements across the network by updating each node estimate with a weighted average of its neighbours estimates. At each step, every node can compute a local weighted least-squares estimate, which converges to the global maximum-likelihood solution. This scheme, robust to unreliable communication links, is shown working in a network with dynamically changing topology, which is a customary condition for moving platforms.
2024
2024 IEEE International Workshop on Metrology for Industry 4.0 & IoT (MetroInd4.0 & IoT)
Piscataway, NJ, USA
IEEE, Institute of Electrical and Electronics Engineers
9798350385823
Santoro, L.; Brunelli, D.; Fontanelli, D.
Unveiling the Undersea: A Collaborative Approach to Monitoring Underwater Objects / Santoro, L.; Brunelli, D.; Fontanelli, D.. - 156:(2024), pp. 76-81. (Intervento presentato al convegno MetroInd4.0 & IoT tenutosi a Firenze, Italia nel 29-31 May 2024) [10.1109/MetroInd4.0IoT61288.2024.10584128].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/430732
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