Zezong Chen scite author profile

High-frequency surface wave radar (HFSWR) has been widely applied in sea-state monitoring, and its performance is known to suffer from various unwanted interferences and clutters. Radio frequency interference (RFI) from other radiating sources and ionospheric clutter dominate the various types of unwanted signals because the HF band is congested with many users and the ionosphere propagates interference from distant sources. In this paper, various orthogonal projection schemes are summarized, and three new schemes are proposed for interference cancellation. Simulations and field data recorded by experimental multi-frequency HFSWR from Wuhan University are used to evaluate the cancellation performances of these schemes with respect to both RFI and ionospheric clutter. The processing results may provide a guideline for identifying the appropriate orthogonal projection cancellation schemes in various HFSWR applications.

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A BiLSTM hybrid model for ship roll multi-step forecasting based on decomposition and hyperparameter optimization

Wei

Chen

Zhao

et al. 2021

Ocean Engineering

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Zezong Chen

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Using SVD-FRFT Filtering to Suppress First-Order Sea Clutter in HFSWR

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An Orthogonal Projection Algorithm to Suppress Interference in High-Frequency Surface Wave Radar

A BiLSTM hybrid model for ship roll multi-step forecasting based on decomposition and hyperparameter optimization

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