Active Learning and CSI Acquisition for mmWave Initial Alignment
December 19, 2018 Β· Declared Dead Β· π IEEE Journal on Selected Areas in Communications
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Authors
Sung-En Chiu, Nancy Ronquillo, Tara Javidi
arXiv ID
1812.07722
Category
cs.IT: Information Theory
Cross-listed
cs.LG,
stat.AP,
stat.ML
Citations
128
Venue
IEEE Journal on Selected Areas in Communications
Last Checked
4 months ago
Abstract
Millimeter wave (mmWave) communication with large antenna arrays is a promising technique to enable extremely high data rates due to the large available bandwidth in mmWave frequency bands. In addition, given the knowledge of an optimal directional beamforming vector, large antenna arrays have been shown to overcome both the severe signal attenuation in mmWave as well as the interference problem. However, fundamental limits on achievable learning rate of an optimal beamforming vector remain. This paper considers the problem of adaptive and sequential optimization of the beamforming vectors during the initial access phase of communication. With a single-path channel model, the problem is reduced to actively learning the Angle-of-Arrival (AoA) of the signal sent from the user to the Base Station (BS). Drawing on the recent results in the design of a hierarchical beamforming codebook [1], sequential measurement dependent noisy search strategies [2], and active learning from an imperfect labeler [3], an adaptive and sequential alignment algorithm is proposed. An upper bound on the expected search time of the proposed algorithm is derived via Extrinsic Jensen-Shannon Divergence. which demonstrates that the search time of the proposed algorithm asymptotically matches the performance of the noiseless bisection search up to a constant factor. Furthermore, the upper bound shows that the acquired AoA error probability decays exponentially fast with the search time with an exponent that is a decreasing function of the acquisition rate. Numerically, the proposed algorithm is compared with prior work where a significant improvement of the system communication rate is observed. Most notably, in the relevant regime of low (-10dB to 5dB) raw SNR, this establishes the first practically viable solution for initial access and, hence, the first demonstration of stand-alone mmWave communication
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