2018
DOI: 10.1109/jstsp.2018.2850751
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Improved Target Acquisition Rates With Feedback Codes

Abstract: This paper considers the problem of acquiring an unknown target location (among a finite number of locations) via a sequence of measurements, where each measurement consists of simultaneously probing a group of locations. The resulting observation consists of a sum of an indicator of the target's presence in the probed region, and a zero mean Gaussian noise term whose variance is a function of the measurement vector. An equivalence between the target acquisition problem and channel coding over a binary input a… Show more

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Cited by 20 publications
(27 citation statements)
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“…• We formulate the initial beam alignment for massive MIMO as active learning of the AoA through multiple sequential and adaptive search beams. Our approach draws heavily from our prior work on algorithms for noisy search [2], active learning [16], and channel coding with feedback [10]. • We propose a new adaptive beamforming strategy that utilizes the hierarchical beamforming codebook of [1].…”
Section: A Our Work and Contributionsmentioning
confidence: 99%
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“…• We formulate the initial beam alignment for massive MIMO as active learning of the AoA through multiple sequential and adaptive search beams. Our approach draws heavily from our prior work on algorithms for noisy search [2], active learning [16], and channel coding with feedback [10]. • We propose a new adaptive beamforming strategy that utilizes the hierarchical beamforming codebook of [1].…”
Section: A Our Work and Contributionsmentioning
confidence: 99%
“…The proposed adaptive strategy, hierarchical Posterior Matching (hieP M ), accounts for the measurement noise and selects the beamforming vectors from the hierarchical beamforming codebook based on the posterior of the AoA. The design and analysis of hieP M extends our prior work of sorted posterior matching for noisy search [2] and [10] in that it restricts the search and the measurements to the practical and hierarchical beamforming patterns of [1]. • We analyze the proposed hieP M strategy and give an upper bound on the expected acquisition time of a variablelength hieP M search strategy required to reach a fixed (predetermined) target resolution and error probability in the AoA estimate.…”
Section: A Our Work and Contributionsmentioning
confidence: 99%
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“…More specifically, at any given time t, a beamforming vector w t ∈ W S is selected sequentially as a function of previously observed signals (y t−1 ). We focus on strategies based on posterior matching, where the problem is connected to channel coding over a binary input channel with ([10], [11], [12]) and without ([13]) feedback. We use the hierarchical posterior matching (hieP M ) scheme from our prior work [8], described in detail in Sect.…”
Section: A Sequential Initial Alignmentmentioning
confidence: 99%