Low Complexity Beam Searching Using Trajectory Information in Mobile Millimeter-wave Networks
Millimeter-wave and terahertz systems rely on beamforming/combining codebooks for finding the best beam directions during the initial access procedure. Existing approaches suffer from large codebook sizes and high beam searching overhead in the presence of mobile devices. To alleviate this problem, we suggest utilizing the similarity of the channel in adjacent locations to divide the UE trajectory into a set of separate regions and maintain a set of candidate paths for each region in a database. In this paper, we show the tradeoff between the number of regions and the signalling overhead, i.e., higher number of regions corresponds to higher signal-to-noise ratio (SNR) but also higher signalling overhead for the database. We then propose an optimization framework to find the minimum number of regions based on the trajectory of a mobile device. Using realistic ray tracing datasets, we demonstrate that the proposed method reduces the beam searching complexity and latency while providing high SNR.
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