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A Low-Complexity OTFS Channel Estimation Method for Fractional Delay-Doppler Scenarios

Imran Ali Khan, Saif Khan Mohammed

2023IEEE Wireless Communications Letters37 citationsDOI

Abstract

We propose a low-complexity channel estimation method for Orthogonal Time Frequency Space (OTFS) modulation based systems. Two important aspects of OTFS modulation, namely, (i) fine delay-Doppler (DD) resolution which results in path separation and, (ii) the separability of the effective DD domain channel gain expression into delay domain and Doppler domain terms, are used to propose an iterative channel estimation method which s eparately estimates the delay, Doppler shift and the channel gain for each channel path. The proposed estimation does not require matrix inversion and therefore has lower complexity when compared to other known methods. The proposed method is shown to achieve a normalized mean square estimation error (NMSE) performance better than other methods.

Topics & Concepts

Channel (broadcasting)AlgorithmComputer scienceDoppler effectModulation (music)Frequency domainComputational complexity theoryMinimum mean square errorTime domainMathematicsControl theory (sociology)TelecommunicationsStatisticsArtificial intelligencePhysicsAcousticsComputer visionEstimatorControl (management)AstronomyPAPR reduction in OFDMPower Line Communications and NoiseAdvanced Wireless Communication Techniques
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