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A Slotted Pilot-Based Unsourced Random Access Scheme With a Multiple-Antenna Receiver

Mert Özateş, Mohammad Kazemi, Tolga M. Duman

2023IEEE Transactions on Wireless Communications29 citationsDOI

Abstract

We consider unsourced random access over fading channels with a massive number of antennas at the base station, and propose a simple, yet energy-efficient solution by dividing the transmission frame into slots. We utilize non-orthogonal pilot sequences followed by a polar codeword for transmission in each slot. At the receiver side, we first detect the transmitted pilot sequences by employing a generalized orthogonal matching pursuit algorithm and utilize a linear minimum mean square error solution to estimate the channel vectors. We then perform an iterative decoding based on maximal ratio combining, single-user polar decoding, and successive interference cancellation with re-estimation of the channel vectors to recover the data bits. We also analyze the performance of the proposed scheme using normal approximations and provide a detailed complexity analysis. Numerical examples demonstrate that the proposed scheme either outperforms the existing schemes in the literature or has a competitive performance with a lower complexity. Furthermore, it is suitable for fast-fading scenarios due to its excellent performance in the short blocklength regime.

Topics & Concepts

Computer scienceSingle antenna interference cancellationFadingDecoding methodsAlgorithmTransmission (telecommunications)Random accessMultiuser detectionMinimum mean square errorBase stationChannel (broadcasting)Maximal-ratio combiningAntenna (radio)Interference (communication)MIMOTelecommunicationsMathematicsCode division multiple accessComputer networkStatisticsEstimatorWireless Communication Security TechniquesAdvanced Wireless Communication TechnologiesAdvanced Wireless Communication Techniques
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