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Channel Equalization Through Reservoir Computing: A Theoretical Perspective

Shashank Jere, Ramin Safavinejad, Lizhong Zheng, Lingjia Liu

2023IEEE Wireless Communications Letters13 citationsDOI

Abstract

Deep learning practice, including in wireless communications, often relies on trial and error to optimize neural network (NN) structures and their corresponding hyperparameters. We show that Reservoir Computing, especially the Echo State Network (ESN), is an ideal learning-based equalizer for a general fading channel and for an ESN equalizing a channel with known statistics, theoretically derive its optimum reservoir weights which are randomly initialized in state-of-the-art and lack interpretability. The theoretical results are validated with simulations. In contrast to existing literature, this letter analytically adapts the NN structure to the problem being addressed, guaranteeing optimum equalization under known channel statistics.

Topics & Concepts

InterpretabilityComputer scienceChannel (broadcasting)Reservoir computingBlind equalizationPerspective (graphical)FadingEqualization (audio)Artificial neural networkHyperparameterWireless networkArtificial intelligenceChannel state informationRecurrent neural networkEcho state networkMachine learningWirelessAlgorithmTelecommunicationsNeural Networks and Reservoir ComputingAdvanced Memory and Neural ComputingOptical Network Technologies
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