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Sliding Window Network Coding Enables NeXt Generation URLLC Millimeter-Wave Networks

Eurico Dias, Duarte Raposo, Homa Esfahanizadeh, Alejandro Cohen, Tânia Ferreira, Miguel Luís, Susana Sargento, Muriel Médard

2023IEEE Networking Letters22 citationsDOI

Abstract

Ultra-reliability and low-latency are pivotal requirements of the emerging 6th generation of communication systems (xURLLC). The transition in millimeter-wave (mmWave) technology, from omni-directional to highly directional antennas, has been seen as an enabler for high bandwidth communications, still susceptible to high loss and high latency variation. Classical error recovery approaches cannot close the rising gap between high throughput and low delay in such systems. In this letter, we incorporate effective sliding window network coding solutions in mmWave communications. While legacy systems such as rateless codes improve the delay, cross-layer results show that they do not provide Low Latency Communications (LLC), due to the lossy behaviour of mmWave channel and the lower-layers’ retransmission mechanisms. On the other hand, fixed sliding window random linear network coding (RLNC) is able to achieve LLC, and even better, adaptive sliding window RLNC obtains Ultra-Reliable LLC (URLLC) in mmWave backhaul networks.

Topics & Concepts

RetransmissionComputer scienceComputer networkLinear network codingSliding window protocolLossy compressionBackhaul (telecommunications)Extremely high frequencyHybrid automatic repeat requestNetwork packetTelecommunicationsBase stationTelecommunications linkWindow (computing)Operating systemArtificial intelligenceCooperative Communication and Network CodingAdvanced Wireless Communication TechnologiesAdvanced MIMO Systems Optimization
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