Performance of free-space optical communication systems: effect of aerosol-induced lower atmospheric warming

Sunilkumar, K.; Anand, N.; Satheesh, S. K.; Moorthy, K. Krishna; Ilavazhagan, G.

doi:10.1364/oe.27.011303

Cited by 23 publications

(5 citation statements)

References 24 publications

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“…It means the sample is fabricated successfully. RTCVD is a mature technology (for more details, refer [17][18][19][20]). e manufacture process includes the following steps:…”

Section: E Making Process Of the Samplementioning

confidence: 99%

The BER of the New FSO Receiver Manufactured by RTCVD and Solar Cell Technology

Qing-gui

Wen-guang

2020

International Journal of Optics

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In the free-space optical (FSO) communication system, alignment and coupling are key issues. In this work, we adopt a PIN photodiode board as the new receiver to address this question. Firstly, with rapid thermochemical vapor deposition (RTCVD) and solar cell technology, the PIN photodiode board is manufactured. Then, using scanning electron microscope (SEM) and transmission electron microscope (TEM), the microphotographs of the PIN photodiode are taken. After that, the PIN board is arranged as a new receiver in the FSO system to do a bit error rate (BER) experiment. In total, we have carried out 4 groups of experiments. The BERs of the ordinary receiver are as follows: (10−8.5, 10−8, 10−8, and 10−7.9) and that of the new receiver is (10−9.2, 10−9.1, 10−9.1, and 10−9), respectively. It means the BER of the new receiver is lower. In other words, the new receiver performs better.

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“…It means the sample is fabricated successfully. RTCVD is a mature technology (for more details, refer [17][18][19][20]). e manufacture process includes the following steps:…”

Section: E Making Process Of the Samplementioning

confidence: 99%

The BER of the New FSO Receiver Manufactured by RTCVD and Solar Cell Technology

Qing-gui

Wen-guang

2020

International Journal of Optics

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“…To mitigate the atmospheric turbulences, a closedform of mathematical expression is derived, [22], however, it cannot be applied to multiple objectives, for example, it doesn't discuss how to increase the range of communication. A self-healing Bessel beams accompanied by adaptive compensation techniques have proposed [23] which can reduce the inter-channel crosstalk and BER.…”

Section: Introductionmentioning

confidence: 99%

Free space optics communication system design using iterative optimization

Lema

2023

Journal of Optical Communications

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Free Space Optics (FSO) communication provides attractive bandwidth enhancement with unlicensed bands worldwide spectrum. However, the link capacity and availability are the major concern in the different atmospheric conditions. The reliability of the link is highly dependent on weather conditions that attenuate the signal strength. Hence, this study focuses to mitigate the weather and geographic effects using iterative optimization on FSO communication. The optimization maximizes the visibility distance while guaranteeing the reliability by minimizing the Bit Error Rate (BER). The wireless optical communication system is designed for the data rate of 10 Gbps. The performance of the proposed wireless optical communication is compared against the literature in terms of visibility distance, quality factor, BER, and Eye diagram at different atmospheric conditions. The simulation results have shown that the proposed work has achieved better performance.

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“…Being an attractive and economical choice, the Free-Space Optical (FSO) communication presents a substitute for conventional Optical Fiber Communication (OFC), particularly in situations where deploying fiber optic infrastructure is economically and logistically challenging (Singh et al, 2021). However, the effectiveness of FSO techniques can be compromised by various weather-centric elements, such as turbulence, pointing inaccuracies, haze, fog, clouds, rain, and snow, leading to performance degradation (Mahalati, 2012;Yang, 2014;Esmail et al, 2019;Sunilkumar et al, 2019;Ashrafzadeh et al, 2020). Accurately comprehending the influence of these atmospheric conditions on the propagation of optical signals through the atmosphere remains a significant quandary for the research community.…”

Section: Introductionmentioning

confidence: 99%

Bit Error Rate Performance in CDMA Free Space Optical Links with SIK Receiver under Fog Conditions

Islam,

Majumder

2023

MIJST

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This article presents a novel analytical method for evaluating fog's impact on Bit Error Rate (BER) in an Optical Code Division Multiple Access (OCDMA) Free Space Optical (FSO) connection. The investigation employs an optical encoder and direct detection receiver employing a balanced photo detector with Sequence Inverse Keying (SIK) to explore fog effects. By scrutinizing multi-access interference (MAI) current and signal current values at the SIK receiver's output under varied fog conditions, we deduce BER expressions for diverse scenarios. These encompass different fog thickness levels, code lengths, simultaneous users, and system parameters. The results reveal substantial OCDMA degradation due to fog thickness and users. Also, the system incurs a marked power penalty at a specific BER, especially with higher fog and user density. However, we identify a potential solution: increasing code length, effectively mitigating fog-induced performance decline.

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Performance of free-space optical communication systems: effect of aerosol-induced lower atmospheric warming

Cited by 23 publications

References 24 publications

The BER of the New FSO Receiver Manufactured by RTCVD and Solar Cell Technology

The BER of the New FSO Receiver Manufactured by RTCVD and Solar Cell Technology

Free space optics communication system design using iterative optimization

Bit Error Rate Performance in CDMA Free Space Optical Links with SIK Receiver under Fog Conditions

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