Optimal Power Allocation Between Beam Tracking and Symbol Detection Channels in a Free-Space Optical Communications Receiver

Bashir, Muhammad Salman; Alouini, Mohamed‐Slim

doi:10.1109/tcomm.2021.3099838

Cited by 10 publications

(5 citation statements)

References 57 publications

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“…Equation (16) cannot be calculated by polar integration because the average irradiance profile of the HG beam is not necessarily centrosymmetric. Consequently, the integration area is approximately transformed from a circle to a square with the same area; 30 – 32 the side length of the square receiving aperture is Dπ/2. Equation (16) can be approximately integrated as follows: P(D)≈∫−πD/4πD/4∫−πD/4πD/4⟨Imn(x,y,L)⟩PEdx dy.…”

Section: Discussionmentioning

confidence: 99%

Average irradiance of Hermite–Gaussian beam under pointing error in atmospheric turbulence

et al. 2022

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Hermite-Gaussian (HG) beam has enormous potential to enhance the capacity of free-space optical (FSO) communication due to its unique orthogonal spatial modes. However, the combined influence of atmospheric turbulence and pointing error on average irradiance for a mobile FSO link have rarely been reported before. The closed form of average irradiance of an HG beam under an arbitrary magnitude pointing error in atmospheric turbulence is deduced through a statistical averaging method. The accuracy of the proposed theoretical results was verified by a phase screen simulation. We found that the average irradiance profile of an HG beam finally changes into an approximate Gaussian shape with the increase of atmospheric turbulence and pointing error, and the larger beam waist can mitigate the profile change with an increase of atmospheric turbulence and pointing error. Based on the expressions of average irradiance, the effective spot size and average received power under the pointing error in atmospheric turbulence were derived and analyzed. This research provides the fundamental theoretical expressions for performance research on an HG beam-based mobile FSO link in atmospheric turbulence.

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Section: Discussionmentioning

confidence: 99%

Average irradiance of Hermite–Gaussian beam under pointing error in atmospheric turbulence

et al. 2022

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“…In order to achieve beaconless transmission, a single, data-carrying, beam is transmitted to the receiver where the tracking information is extracted from the same beam. At the receiver, the beam energy is divided optimally between the beam tracking and data detection channels to maximize the error performance of the receiver [309]. To reduce the computational complexity of the tracking subsystems further, photon-counting detector arrays-based on the closed-loop data-aided tracking principle-that act as both tracking and symbol detection devices are discussed in [310]- [313].…”

Section: Pointing Acquisition and Tracking (Pat)mentioning

confidence: 99%

Optical Wireless Communications: Illuminating the Path for Cooper's Law

Eltokhey,

Bashir,

Younus

et al. 2024

Preprint

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“…However, there are several factors that may negatively impact the cancellation performance of the proposed system, including signal scattering [20], power fading [21], exposure to radiation [22], and range limitations. To improve performance, precompensation and post-compensation techniques, frequency down conversion mechanisms, and DSP-based algorithmic computations can be implemented [23].…”

Section: Principlementioning

confidence: 99%

A Multipath Approach to Self-Interference Cancellation in MIMO Rayleigh Fading Channels

Chandrasenan,

Zacharias

2024

JOPR

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An optically enabled multi-path self-interference (MSI) cancellation technique for in-band full duplex (IBFD) RoF MIMO systems under Rayleigh fading channels is proposed. A digitally assisted Rayleigh fading channel model generates the MSI signal. An optically tunable multi-path delay lines (OTMDL) module is designed using optical delay lines (ODL) and an optical attenuator (OA) for coarse and fine-tuning of time delays and amplitude matching between the locally generated reference (LR) signal and the MSI signal. The OTMDL module adjusts the LR signal to cancel the effect of MSI on the signal received through the fading channel. The concept is validated using a remote sensor node of a 3x3 IBFD MIMO RoF system with a Rayleigh fading channel. The system’s performance is evaluated by determining the MSI cancellation depths using the OTMDL section for various cancellation channels, and by computing the MSI cancellation for both single band and wide band signals across different cancellation channels. An average value of MSI cancellation depth of 20.38 dB is obtained for a single-tone RF signal in the range 15 GHz - 25 GHz. Thus, the proposed system for MSI cancellation can be utilized in wireless communication systems in multiple way.

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Optimal Power Allocation Between Beam Tracking and Symbol Detection Channels in a Free-Space Optical Communications Receiver

Cited by 10 publications

References 57 publications

Average irradiance of Hermite–Gaussian beam under pointing error in atmospheric turbulence

Average irradiance of Hermite–Gaussian beam under pointing error in atmospheric turbulence

Optical Wireless Communications: Illuminating the Path for Cooper's Law

A Multipath Approach to Self-Interference Cancellation in MIMO Rayleigh Fading Channels

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