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Radar Aided Proactive Blockage Prediction in Real-World Millimeter Wave Systems

Umut Demirhan, Ahmed Alkhateeb

2022ICC 2022 - IEEE International Conference on Communications40 citationsDOI

Abstract

Millimeter wave (mmWave) and sub-terahertz communication systems rely mainly on line-of-sight (LOS) links between the transmitters and receivers. The sensitivity of these high-frequency LOS links to blockages, however, challenges the reliability and latency requirements of these communication networks. In this paper, we propose to utilize radar sensors to provide sensing information about the surrounding environment and moving objects, and leverage this information to proactively predict future link blockages before they happen. This is motivated by the low cost of the radar sensors, their ability to efficiently capture important features such as range, angle, velocity of the moving scatterers (candidate blockages), and their capability to capture radar frames at relatively high speed. We formulate the radar-aided proactive blockage prediction problem and develop a solution with deep neural networks. To accurately evaluate the proposed solutions, we build a large-scale real-world dataset, based on the DeepSense framework, gathering co-existing radar and mmWave communication measurements of more than 10 thousand data points and various blockage objects (vehicles, bikes, humans). The evaluation results, based on this dataset, show that the proposed approaches can predicted future blockages 1 second before they happen with more than 90% F <inf xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">1</inf> score (and more than 90% accuracy). These results, among others, highlight a promising solution for blockage prediction and reliability enhancement in future wireless mmWave and terahertz communication systems.

Topics & Concepts

Computer scienceRadarExtremely high frequencyLeverage (statistics)Reliability (semiconductor)Real-time computingWirelessArtificial intelligenceRemote sensingTelecommunicationsPower (physics)PhysicsQuantum mechanicsGeologyMillimeter-Wave Propagation and ModelingIndoor and Outdoor Localization TechnologiesTerahertz technology and applications
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