Underwater Networks

Underwater networking poses serious challenges to network designers, as no straightforward translation exists between protocols for the terrestrial wireless radio environment and their underwater counterparts. The main reason behind this is the different nature of the underwater acoustic channel: long propagation delays (the average propagation speed of an acoustic wave is about 1500 m/s underwater, nearly 200’000 times smaller than radio waves in the air), strong multipath effects, long-term channel variations, and last but not least a much smaller bandwidth available (due to the use of acoustic frequencies, i.e., in the tens of kHz range), which turns into lower transmit bit rates. While radio and optical waves may also be an option for underwater communications, acoustic waves still foster a lot of interest, as they are currently the only means to reach distances longer than a few hundred meters. With the proper configuration of transmission hardware parameters, acoustic waves can travel up to tens of kilometers, making long range communication feasible, albeit at a possibly very low bit rate.

As there is no widely agreed upon model for the channel, we seek new models that are sufficiently compact yet simple enough to be plugged into a network simulator. This activity is carried out in cooperation with institutions and research centers that can provide real data from undersea measurement campaigns. 

Underwater acoustic channel can be simulated using ray-tracer as well. We develop the WOSS Framework to obtain realistic acustic channel realization based on ray-tracer to be used in underwater network simulators.

We are currently analyzing a number of MAC solutions by means of simulations and stochastic models, in order to discover which features make one protocol perform better than others, with the final objective to create a novel protocol encompassing the best behaviors seen in other approaches.

Multihop underwater networks will require delay-tolerant routing protocols, that work well in the presence of very long propagation delays. We are currently analyzing the relevant routing tradeoffs that allow, e.g., to save energy by choosing wisely which nodes will relay messages. We are also designing efficient broadcasting techniques based on Hybrid ARQ.

We collaborate with research institutions to define joint sea trial activities which allow for network protocol evaluation as well as channel characterization; this feeds novel insight and provides directions to all above tasks.

Authors	Title		Venue/Journal
Filippo Campagnaro, Matin Ghalkhani, Riccardo Tumiati, Federico Marin, Matteo Dal Grande, Alessandro Pozzebon, Davide De Battisti, Roberto Francescon, Michele Zorzi	Monitoring the Venice Lagoon: an IoT Cloud-Based Sensor Network Approach		IEEE JOE 2024
Davide Cosimo, Antonio Montanari, Daniele Sebino Terracciano, Lorenzo Bazzarello, Riccardo Costanzi, Filippo Campagnaro, Michele Zorzi	Comparative Analysis of Throughput Maximization Strategies in Underwater Acoustic Networks: Results from At-Sea Experiments		IEEE METROSea 2024
Matin Ghalkhani, Federico Marin, Filippo Campagnaro, Michele Zorzi	Enhancing IoT Cloud Infrastructure and Data Visualization for Real-Time Monitoring of the Venice Lagoon with SENSWICH		IEEE METROSea 2024
Filippo Donegà, Roberto Francescon, Filippo Campagnaro, Ivor Nissen, Michele Zorzi	A Collaborative Reputation Mechanism for Underwater Acoustic Networks		IEEE UComms 2024
Antonio Montanari, Federico Marin, Vincenzo Cimino, Diego Spinosa, Filippo Donegà, Davide Cosimo, Lorenzo Bazzarello, Daniele Natale, Filippo Campagnaro, Michele Zorzi	Experimenting Various JANUS Frequency Bands with the Subsea Software-Defined Acoustic Modem		IEEE UComms 2024
A. Montanari, F. Campagnaro, M. Zorzi	An Adaptive MAC-Agnostic Ranging Scheme for Underwater Acoustic Mobile Networks		Elsevier Computer Networks
F. Donegà, E. Bortolozzo, R. Francescon, F. Campagnaro, M. Zorzi	A security system for spreading information about malicious behaviors in underwater wireless sensor networks		IEEE/MTS Oceans 2024 Singapore
J. Lazzarin, F. Campagnaro, M. Padovan, E. Rossi, I. Karakosta-Amarantidou, F. Picciariello, F. Vedovato, G. Vallone, P. Villoresi, M. Zorzi	Quantum Key Distribution for Secure Encryption in Underwater Networks		IEEE/MTS Oceans 2024 Singapore
J. Zhang, F. Campagnaro, A. Montanari, M. Zorzi	One-way Ranging for Mobile Underwater Acoustic Networks with Long Interaction Periods		IEEE/MTS Oceans 2024 Singapore
A. Ortile, F. Campagnaro, F. Chiariotti, M. Zorzi	Unmanned Marine Vehicle Cooperative Offshore Infrastructure Monitoring with Multimodal Underwater Feature Transmission		ACM WUWNet 2023 Shenzhen
V. Cimino, F. Campagnaro, M. Zorzi	A Mine Countermeasure System with Low-Cost AUV Swarms		ACM WUWNet 2023 Shenzhen
F. Campagnaro, F. Steinmetz, B.C. Renner, M. Zorzi	Affordable underwater acoustic modems and their application in everyday life: a complete overview		ACM WUWNet 2023 Shenzhen
M. Ghalkhani, F. Campagnaro, A. Pozzebon, D. De Battisti, M. Biagi, M. Zorzi	A LoRaWAN Network for the Real-Time Monitoring of the Venice Lagoon: Preliminary Tests		IEEE/OES Metrosea 2023 Malta
H. Dol, K. Blom, D. Sotnik, I. Nissen, R. Otnes, A. Komulainen, F. Campagnaro	EDA-SALSA: Development of a self-reconfigurable protocol stack for robust underwater acoustic networking		IEEE/MTS Oceans 2023 Limerick
Riccardo Tumiati, Filippo Campagnaro, Irene Cappelli, Alessandro Pozzebon, Michele Zorzi	Modeling the underwater electromagnetic radio frequency channel in the DESERT Underwater network simulator		IEEE/MTS Oceans 2023 Limerick
Jianyu Zhang, Filippo Campagnaro, Michele Zorzi	Spatial-reuse TDMA for Large Scale Underwater Acoustic Multi-hop Grid Networks		IEEE/MTS Oceans 2023 Limerick
Roberto Francescon, Filippo Campagnaro, Federico Favaro, Federico Guerra, Michele Zorzi	Software Defined Underwater Communications: an Experimental Platform for Research		IEEE/MTS Oceans 2023 Limerick
Alessandro Pozzebon, Irene Cappelli, Filippo Campagnaro, Roberto Francescon and Michele Zorzi	LoRaWAN Transmissions in Salt Water for Superficial Marine Sensor Networking: Laboratory and Field Tests		MDPI Sensors
Filippo Campagnaro, Roberto Francescon, Emanuele Coccolo, Antonio Montanari, Michele Zorzi	A Software-Defined Underwater Acoustic Modem for Everyone: Design and Evaluation		IEEE IoTMag 2023
Emanuele Coccolo, Cosmin Delea, Fabian Steinmetz, Roberto Francescon, Alberto Signori, Ching Nok Au, Filippo Campagnaro, Vincent Schneider, Federico Favaro, Johannes Oeffner, Christian Renner, Michele Zorzi	System Architecture and Communication Infrastructure for the RoboVaaS project		IEEE Journal of Oceanic Engineering 2023
Filippo Campagnaro, Fabian Steinmetz, Bernd-Christian Renner	Survey on Low-Cost Underwater Sensor Networks: From Niche Applications to Everyday Use		MDPI JMSE 2023
Federico Mason, Federico Chiariotti, Andrea Zanella, Michele Zorzi	Automatic Shark Detection via Underwater Acoustic Sensing		IEEE IoTMag 2022
Antonio Montanari, Filippo Campagnaro, Michele Zorzi	One- and Two-Way Travel Time Ranging in Underwater Acoustic Mobile Networks		WUWNet 2022 Boston – US
Nicola Toffolo, Antonio Montanari, Filippo Campagnaro, Michele Zorzi	Modeling acoustic channel variability in underwater network simulators from real field experimental data		MTS/IEEE Oceans 2022 Hampton Roads – US
Filippo Campagnaro, Nicola Toffolo, Alessandro Pozzebon, Roberto Francescon, Alberto Barausse, Laura Airoldi, Michele Zorzi	A Network Infrastructure for Monitoring Coastal Environments and Study Climate Changes in Marine Systems		MTS/IEEE Oceans 2022 Hampton Roads – US
Emanuele Coccolo, Roberto Francescon, Filippo Campagnaro, Michele Zorzi	Field Tests of the Software Defined Modem Prototype for the MODA Project		IEEE UComms 2022
Filippo Campagnaro, Nicola Toffolo, Michele Zorzi	Modeling acoustic channel variability in underwater network simulators from real field experiment data		MDPI Electronics 2022
A. Pal, Filippo Campagnaro, K. Ahraf, R. Rahman, A. Ashok, H. Guo	Communication for Underwater Sensor Networks: A Comprehensive Summary		ACM Transactions on Sensor Networks 2022
Alberto Signori, Filippo Campagnaro, Ivor Nissen, Michele Zorzi	Channel-Based Trust Model for Security in Underwater Acoustic Networks		IEEE Internet of Things Journal 2022
Emanuele Coccolo, Filippo Campagnaro, Davide Tronchin, Antonio Montanari, Roberto Francescon, Lorenzo Vangelista , Michele Zorzi	Underwater Acoustic Modem for a MOrphing Distributed Autonomous Underwater Vehicle (MODA)		MTS/IEEE Oceans 2022 Chennai – India
Alberto Signori, Emanuele Coccolo, Filippo Campagnaro, Ivor Nissen, Michele Zorzi	Trustworthiness in the GUWMANET+ Protocol for Underwater Acoustic Mobile Ad-Hoc Networks		ACM WUWNet 2021
Alberto Signori, Federico Chiariotti, Filippo Campagnaro, Roberto Petroccia, Konstantinos Pelekanakis, Pietro Paglierani, João Alves, Michele Zorzi	A Geometry-Based Game Theoretical Model of Blind and Reactive Underwater Jamming		IEEE Transactions on Wireless Communications
Davide Tronchin, Roberto Francescon, Filippo Campagnaro, Alberto Signori, Roberto Petroccia, Konstantinos Pelekanakis, Pietro Paglierani, João Alves, Michele Zorzi	A Secure Cross-Layer Communication Stack for Underwater Acoustic Networks		MTS/IEEE Oceans 2021 San Diego – Porto
Filippo Campagnaro, Alberto Signori, Roald Otnes, Michael Goetz, Dimitri Sotnik, Arwid Komulainen, Ivor Nissen, Federico Favaro, Federico Guerra, Michele Zorzi	A Simulation Framework for Smart Adaptive Long- and Short-range Acoustic Networks		MTS/IEEE Oceans 2021 San Diego – Porto
Roberto Francescon, Filippo Campagnaro, Emanuele Coccolo, Alberto Signori, Federico Guerra, Federico Favaro, Michele Zorzi	An Event-Based Stack For Data Transmission Through Underwater Multimodal Networks		IEEE Ucomms 2021
Filippo Campagnaro, Alberto Signori, Michele Zorzi	Wireless Remote Control for Underwater Vehicles		Journal of Marine Science and Engineering
Filippo Campagnaro, Davide Tronchin, Alberto Signori, Roberto Petroccia, Konstantinos Pelekanakis, Pietro Paglierani, Joāo Alves, Michele Zorzi	Replay-Attack Countermeasures for Underwater Acoustic Networks		MTS/IEEE Global Oceans 2020
Cosmin Delea, Emanuele Coccolo, Salvador Fernandez Covarrubias, Filippo Campagnaro, Federico Favaro, Roberto Francescon, Vincent Schneider, Johannes Oeffner, Michele Zorzi	Communication Infrastructure and Cloud Computing in Robotic Vessel as-a-Service Application		MTS/IEEE Global Oceans 2020
Alberto Signori, Filippo Campagnaro, Kim-Fabian Wachlin, Ivor Nissen, Michele Zorzi	On the Use of Conversation Detection to Improve the Security of Underwater Acoustic Networks		MTS/IEEE Global Oceans 2020
Federico Mason, Federico Chiariotti, Filippo Campagnaro, Andrea Zanella, Michele Zorzi	Low-cost AUV Swarm Localization Through Multimodal Underwater Acoustic Networks		MTS/IEEE Global Oceans 2020
Tommaso Zugno, Filippo Campagnaro, Michele Zorzi	Controlling in real-time an ASV-carried ROV for quay wall and ship hull inspection through wireless links in harbor environments		MTS/IEEE Global Oceans 2020
Davide Magrin, Alberto Signori, Davide Tronchin, Filippo Campagnaro, Michele Zorzi	Collaboration of LoRaWAN and Underwater Acoustic Communications in Sensor Data Collection Applications		MTS/IEEE Global Oceans 2020
Federico Chiariotti, Alberto Signori, Filippo Campagnaro, Michele Zorzi	Underwater Jamming Attacks as Incomplete Information Games		IEEE INFOCOM Workshop WCNEE 2020
Alberto Signori, Federico Chiariotti, Filippo Campagnaro, Michele Zorzi	A Game-Theoretic and Experimental Analysis of Energy-Depleting Underwater Jamming Attacks		IEEE Internet of Things Journal
Paolo Casari, Filippo Campagnaro, Elizaveta Dubrovinskaya, Roberto Francescon, Amir Dagan, Shlomo Dahan, Michele Zorzi, Roee Diamant	ASUNA: A Topology Dataset for Underwater Network Emulation		IEEE Journal of Oceanic Engineering
Alberto Signori, Filippo Campagnaro, Fabian Steinmetz, Bernd-Christian Renner, Michele Zorzi	Data Gathering from a Multimodal Dense Underwater Acoustic Sensor Network Deployed in Shallow Fresh Water Scenarios		Journal of Sensor and Actuator Networks
Alberto Signori, Chiara Pielli, Federico Chiariotti, Marco Giordani, Filippo Campagnaro, Nicola Laurenti, Michele Zorzi	Jamming the Underwater: a Game-Theoretic Analysis of Energy-Depleting Jamming Attacks		ACM WUWNet 2019
Filippo Campagnaro, Fabian Steinmetz, Alberto Signori, Davide Zordan, Bernd-Christian Renner, Michele Zorzi	Data Collection in Shallow Fresh Water Scenarios with Low-Cost Underwater Acoustic Modems		UACE 2019
Davide Zordan, Filippo Campagnaro, Michele Zorzi	On the feasibility of an Anti-grounding Service with Autonomous Surface Vessels		MTS/IEEE Oceans19 Marseille
Alberto Signori, Filippo Campagnaro, Davide Zordan, Federico Favaro, Michele Zorzi	Underwater Acoustic Sensors Data Collection in the Robotic Vessels as-a-Service Project		MTS/IEEE Oceans19 Marseille

Previous works can be found at this link