Frame Boundary Detection and Deep Learning-Based Doppler Shift Estimation for FBMC/OQAM Communication System in Underwater Acoustic Channels

Abstract: Underwater acoustic (UWA) communication is the only option for underwater long-distance wireless communication. However, its data rate is very low, in tens of kbps, and the time-varying nature of the UWA channel exhibits a Doppler effect. The data rate can be increased using a multicarrier technique, such as Filter Bank Multicarrier (FBMC). The FBMC-OQAM system does not require a cyclic prefix (CP) to eliminate intersymbol interference (ISI). Therefore, compared to other multicarrier techniques, the FBMC-OQAM … Show more

“…For the communication model, FBMC technologies are utilized [24]. FBMC has several advantages, such as low inter-symbol interference, large frequency selectivity, and low out-of-band emissions, making it suitable for challenging underwater acoustic communication scenarios [25]. In Section II, the construction of FBMC systems, the principle of VMD, and the design of the DCNN are introduced.…”

Variational Mode Decomposition for Deep Convolutional Neural Networks in Underwater Acoustic Communication

“…For the communication model, FBMC technologies are utilized [24]. FBMC has several advantages, such as low inter-symbol interference, large frequency selectivity, and low out-of-band emissions, making it suitable for challenging underwater acoustic communication scenarios [25]. In Section II, the construction of FBMC systems, the principle of VMD, and the design of the DCNN are introduced.…”

Variational Mode Decomposition for Deep Convolutional Neural Networks in Underwater Acoustic Communication

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