Time Synchronization in Photon-Limited Deep Space Optical Communications

Bashir, Muhammad Salman; Muhammad, Sajid Sheikh

doi:10.1109/taes.2019.2928667

Cited by 19 publications

(11 citation statements)

References 19 publications

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“…Furthermore, the authors in [8] analyze the acquisition performance of an FSO system that employs an array of detectors at the receiver, and they demonstrated that the acquisition performance in terms of mean acquisition time can be significantly enhanced by employing a large number of detectors in the receiver array. In the same vein, the study in [9] considers time synchronization schemes based on an array of detectors, and this study showed that the synchronization performance improves significantly by using an array of detectors at the receiver.…”

Section: L R C /O T P a Background Literature Reviewmentioning

confidence: 93%

Cramér–Rao Bounds for Beam Tracking With Photon Counting Detector Arrays in Free-Space Optical Communications

Bashir

Tsai

Alouini

2021

IEEE Open J. Commun. Soc.

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Optical beam center position on an array of detectors is an important parameter that is essential for estimating the angle-of-arrival of the incoming signal beam. In this paper, we have examined the beam position estimation problem for photon-counting detector arrays, and to this end, we have derived and analyzed the Cramér-Rao lower bounds on the mean-square error of unbiased estimators of beam position. Furthermore, we have also derived the Cramér-Rao lower bounds of other system parameters such as signal peak intensity, and dark current noise power, on the array. In this sense, we have considered robust estimation of beam position in which none of the parameters are assumed to be known beforehand. Additionally, we have derived the Cramér-Rao lower bounds of beam and noise parameters for observations based on both pilot and data symbols of a pulse position modulation (PPM) scheme. Finally, we have considered a two-step estimation problem in which the signal peak and dark current noise intensities are estimated using a method of moments estimator, and the beam center position is estimated with the help of a maximum likelihood estimator.

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Section: L R C /O T P a Background Literature Reviewmentioning

confidence: 93%

Cramér–Rao Bounds for Beam Tracking With Photon Counting Detector Arrays in Free-Space Optical Communications

Bashir

Tsai

Alouini

2021

IEEE Open J. Commun. Soc.

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“…The authors in [7] analyze the probability of error in detail for the joint beam position tracking and symbol detection system, and show that the probability of error of a maximal ratio combining scheme is minimized if the beam is tracked accurately enough in time. The authors in [8] consider time synchronization schemes for a detector array receiver in a photon-counting channel in deep space optical communications. The authors in [9] have considered the communications performance for an array of detectors and discussed the effects of the number of detectors and the beam parameter information on the performance.…”

Section: A Background Literature Reviewmentioning

confidence: 99%

A Single Detector Versus an Array of Detectors Receiver in Free-Space Optical Communications: A Performance Comparison

Bashir¹,

Tsai²,

Alouini³

2021

Preprint

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Free-space optical (FSO) communications is an important technology that will be used for supporting high data-rates in the backhaul of next generation of wireless communication networks. In this paper, we have comparedthe probability of error performance of two types of receivers used in FSO today: a receiver based on a single detector, and a receiver based on an array of detectors. The performance of these two receivers is compared for a number of fusion algorithms for an array of detectors such as equal gain combiner (EGC), selection combiner(SC), switched combiner (SWC) and the maximal ratio combiner (MRC). From this study, we conclude that even though the array of detectors adds more noise in the sufficient statistic by virtue of large number of detectors,using more computationally expensive fusion algorithms (such as SC and MRC) can help us achieve a superior probability of error performance as opposed to a single-detector receiver for practical channel conditions.

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“…Furthermore, the authors in [10] analyze the acquisition performance of an FSO system that employs an array of detectors at the receiver. Finally, the authors in [11] consider time synchronization schemes based on an array of detectors.…”

Section: L R C /O T P a Background Literature Reviewmentioning

confidence: 99%

Robust Beam Position Estimation with Photon Counting Detector Arrays in Free-Space Optical Communications

Bashir¹,

Tsai²,

Alouini³

2020

Preprint

Self Cite

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Optical beam center position on an array of detectors is an important parameter that is essential for estimating the angle-of-arrival of the incoming signal beam. In this paper, we have examined the beam position estimation problem for photon-counting detector arrays, and to this end, we have derived and analyzed the Cramer-Rao lower bounds on the mean-square error of the unbiased estimators of the beam position. Furthermore, we have also derived the Cramer-Rao lower bounds of other beam parameters such as peak intensity, and the intensity of background radiation on the array. In this sense, we have considered a robust estimation of the beam position in which none of the parameters are assumed to be known beforehand. Additionally, we have derived the Cramer-Rao lower bounds of beam parameters for observations based on both pilot and data symbols of a pulse position modulation (PPM) scheme. Finally, we have considered a two-step estimation problem in which the peak intensity and background radiation are estimated using a method of moments estimator, and the beam center position is estimated with the help of a maximum likelihood estimator.

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Time Synchronization in Photon-Limited Deep Space Optical Communications

Cited by 19 publications

References 19 publications

Cramér–Rao Bounds for Beam Tracking With Photon Counting Detector Arrays in Free-Space Optical Communications

Cramér–Rao Bounds for Beam Tracking With Photon Counting Detector Arrays in Free-Space Optical Communications

A Single Detector Versus an Array of Detectors Receiver in Free-Space Optical Communications: A Performance Comparison

Robust Beam Position Estimation with Photon Counting Detector Arrays in Free-Space Optical Communications

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