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Environment-Aware Link Quality Prediction for Millimeter-Wave Wireless LANs

Yuchen Liu, Douglas M. Blough

202215 citationsDOIOpen Access PDF

Abstract

Millimeter-wave (mmWave) communications have been regarded as one of the most promising solutions to deliver ultra-high data rates in wireless local-area networks. A significant barrier to delivering consistently high rate performance is the rapid variation in quality of mmWave links due to blockages and small changes in user locations. If link quality can be predicted in advance, proactive resource allocation techniques such as link-quality-aware scheduling can be used to mitigate this problem. In this paper, we propose a link quality prediction scheme based on knowledge of the environment. We use geometric analysis to identify the shadowed regions that separate LoS and NLoS scenarios, and build LoS and NLoS link-quality predictors based on an analytical model and a regression-based approach, respectively. For the more challenging NLoS case, we use a synthetic dataset generator with accurate ray tracing analysis to train a deep neural network (DNN) to learn the mapping between environment features and link quality. We then use the DNN to efficiently construct a map of link quality predictions within given environments. Extensive evaluations with additional synthetically generated scenarios show a very high prediction accuracy for our solution. We also experimentally verify the scheme by applying it to predict link quality in an actual 802.11ad environment, and the results show a close agreement between predicted values and measurements of link quality.

Topics & Concepts

Computer scienceNon-line-of-sight propagationQuality of serviceScheduling (production processes)WirelessReal-time computingData miningWireless networkLink (geometry)Artificial neural networkQuality (philosophy)Computer networkDistributed computingMachine learningTelecommunicationsOperations managementEpistemologyEconomicsPhilosophyMillimeter-Wave Propagation and ModelingAdvanced MIMO Systems OptimizationIndoor and Outdoor Localization Technologies