Tracking angles of departure and arrival in a mobile millimeter wave channel

Zhang, Chuang; Guo, Dongning; Fan, Pingyi

doi:10.1109/icc.2016.7510902

Cited by 152 publications

(96 citation statements)

References 8 publications

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“…Both AoD and AoA can be estimated using beam training procedure, and if one identifies the dominant angular bins, one can make channel estimation without incurring in excessive computational complexity. With a time-variant approach, an EKF was used as a tracking filter, which is applied at each step on the elements of the measurement matrix, in contrast with the technique proposed in the work of Zhang et al 3 The main drawback in the beam tracking technique proposed in the work of Va et al 4 is the performance degradation when too narrow beams are assumed, due to beam misalignment during the measurement. This beam tracking technique exploits the continuous nature of time-varying AoD for beam selection.…”

Section: Related Work On Channel Estimation and Beam Trackingmentioning

confidence: 99%

Supervised learning and graph signal processing strategies for beam tracking in highly directional mobile communications

Ortega

Guerreiro

Hui

et al. 2019

Trans Emerging Tel Tech

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The use of efficient beam tracking mechanisms becomes necessary in highly directional communication of the fifth‐generation systems. In this context, this paper analyzes the tracking problem and proposes a framework that exploits the samples in the user equipment (UE) dataset (historical UE dataset) to efficiently estimate and predict the channel state at the base station. The framework is composed of two steps. First, a supervised learning algorithm, namely, K‐nearest neighbors (K‐NN), is evaluated as a mean of (i) finding the most similar historical samples to some beam measurements reported by the UE and (ii) predicting the corresponding channel state. As a second step, a sampling and reconstruction strategy based on graph signal processing (GSP) called K‐nearest neighbors with reconstruction (K‐NN‐R) is introduced in order to reduce the beam search space during the beam measurement stage, which allows a more efficient usage of the feedback channel. Simulation results illustrate the performance of the proposal in terms of normalized mean square error in comparison with three traditional/baseline prediction techniques. The K‐NN technique provides a better performance than the baseline approaches for any length of the observed temporal window and with full beam sweep. Meanwhile, the K‐NN‐R framework outperforms the baseline approaches with only half of the beam pairs and throughout a significantly low length of observed temporal window.

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Section: Related Work On Channel Estimation and Beam Trackingmentioning

confidence: 99%

Supervised learning and graph signal processing strategies for beam tracking in highly directional mobile communications

Ortega

Guerreiro

Hui

et al. 2019

Trans Emerging Tel Tech

View full text Add to dashboard Cite

show abstract

“…The beamforming employed in this paper is analog beamforming, which requires the knowledge of the Angle of Departure (AoD) at the transmitter. The AoD can be estimated using the techniques reported in [14], [15]. On the other hand, STBC requires the knowledge of the channel impulse response at the receivers, which can be estimated as reported in [16].…”

Section: Motivation and Challengesmentioning

confidence: 99%

“…Then, in our design, this information is fed back over the fiber to the tunable frequency generator of Figure 2 through the POF, where the corresponding driving frequencies are applied. Explicitly, the AoD can be accurately estimated using classic techniques reported in the literature, such as the direction search for the largest gain used in the IEEE 802.11ad standard [14], the Kalman filter based tracking algorithm presented in [14] and the path search techniques using different beamwidths [15]. Additionally, several channel estimation technniques have been proposed for STBC in the literature, including closed-form blind channel estimation [16].…”

Section: Proposed System Modelmentioning

confidence: 99%

Joint Space-Time Block-Coding and Beamforming for the Multiuser Radio Over Plastic Fiber Downlink

El‐Hajjar

Hanzo

2018

IEEE Trans. Veh. Technol.

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Abstract-An all-optical processing aided multi-functional wireless Multiple-Input-Multiple-Output (MIMO) architecture is designed, where both diversity and beamforming gains can be attained. Explicitly, we propose an architecture, where the twin-antenna Alamouti space-time block coded symbols are transmitted using a single Mach-Zenhder Modulator (MZM) over a plastic optical fiber. The signal is then transmitted through a set of Fiber Bragg Gratings (FBGs) for attaining the appropriate phase shifts for beamforming, followed by transmission over the wireless channel. The attainable angular beamsteering range is about 150• , where beamsteering is realized without the need for a large number of complex electronic phase shifter networks. The tuning of the beamsteering angle can be readily implemented by carefully controlling the drive voltage in the Mach-Zenhder Modulator, where we use MZM aided multi-wavelength generation for supporting a large number of antennas.

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“…To date, most existing works that investigate beam tracking techniques for mmWave channels have focused on the assumption that the values of AoA and AoD vary smoothly. In [15]- [19], the temporal variation of AoA/AoD over the considered period of time is assumed to follow a Markov process, and the AoA's and AoD's deviations between two consecutive channel realizations are modeled as small Gaussian random variables, based on which various Kalman filter-based beam tracking algorithms have been developed. It is also worth mentioning that the authors in [20]- [23] have proposed to employ the mobile users' location and trajectory information to reduce the beam training overhead.…”

Section: Introductionmentioning

confidence: 99%

Beam Allocation for Millimeter-Wave MIMO Tracking Systems

Zhang

Chen

et al. 2020

IEEE Trans. Veh. Technol.

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In this paper, we propose a new beam allocation strategy aiming to maximize the average successful tracking probability (ASTP) of time-varying millimeter-wave MIMO systems. In contrast to most existing works that employ one transmitting-receiving (Tx-Rx) beam pair once only in each training period, we investigate a more general framework, where the Tx-Rx beam pairs are allowed to be used repeatedly to improve the received signal powers in specific directions. In the case of orthogonal Tx-Rx beam pairs, a power-based estimator is employed to track the time-varying AoA and AoD of the channel, and the resulting training beam pair sequence design problem is formulated as an integer nonlinear programming (I-NLP) problem. By dividing the feasible region into a set of subregions, the formulated I-NLP is decomposed into a series of concave sub I-NLPs, which can be solved by recursively invoking a nonlinear branch-and-bound algorithm. To reduce the computational cost, we relax the integer constraints of each sub I-NLP and obtain a low-complexity solution via solving the Karush-Kuhn-Tucker conditions of their relaxed problems. For the case when the Tx-Rx beam pairs are overlapped in the angular space, we estimate the updated AoA and AoD via an orthogonal matching pursuit (OMP) algorithm. Moreover, since no explicit expression for the ASTP exists for the OMP-based estimator, we derive a closed-form lower bound of the ASTP, based on which a favorable beam pair allocation strategy can be obtained. Numerical results demonstrate the superiority of the proposed beam allocation strategy over existing benchmarks. Index TermsMillimeter wave, time-varying channel, beam training, beam tracking, training beam sequence design.

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Tracking angles of departure and arrival in a mobile millimeter wave channel

Cited by 152 publications

References 8 publications

Supervised learning and graph signal processing strategies for beam tracking in highly directional mobile communications

Supervised learning and graph signal processing strategies for beam tracking in highly directional mobile communications

Joint Space-Time Block-Coding and Beamforming for the Multiuser Radio Over Plastic Fiber Downlink

Beam Allocation for Millimeter-Wave MIMO Tracking Systems

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