Underwater Acoustic Data Transmission in the Presence of Challenging Multipath Conditions and Shadow Zones: Sea Trial Analysis and Lessons Learned

In comparison to traditional wired and wireless communication scenarios, the underwater channel is peculiar, being significantly more difficult for communication and presenting a unique set of features and impairments, thus necessitating special care in selecting ad hoc encoding and modulation technologies to achieve successful transmissions. This process can be aided by simulations, which can be effectively carried out only using a good, detailed channel model validated through sea measurements. This study presents the results of a sea measurement campaign run in May 2024 off the Gulf of La Spezia, Italy, characterized by challenging shallow water conditions and the presence of shadow zones. The collected data is then used to model a simulated channel as faithful as possible to the one experienced during the sea trial. The obtained channel is then used to carry out a comparison of different forward error correction (FEC) codes, highlighting each scheme’s performance in our working context. Conclusive results show that a satisfactory simulated channel was obtained and that a different choice of FEC schemes could have improved the performance of the underwater acoustic communication.