Effect of pointing errors on the performance of hybrid FSO/RF networks
The performance of a free space optics (FSO) transmission suffers from the atmospheric turbulence and the attenuation in foggy environment. By employing relay nodes, the error rate and the coverage area of the FSO communication system can be significantly improved. However, the pointing errors, g...
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sg-ntu-dr.10356-1448322020-11-26T04:39:00Z Effect of pointing errors on the performance of hybrid FSO/RF networks Sharma, Shubha Madhukumar, A. S. Swaminathan, R. School of Computer Science and Engineering Engineering::Computer science and engineering Hybrid FSO/RF Systems Decode-and-forward Relaying The performance of a free space optics (FSO) transmission suffers from the atmospheric turbulence and the attenuation in foggy environment. By employing relay nodes, the error rate and the coverage area of the FSO communication system can be significantly improved. However, the pointing errors, generated because of the building sway, have the potential to eradicate the benefits of the relay-based FSO communication system. The effect of pointing errors in the presence of Gamma Gamma atmospheric fading together with path loss attenuation is considered in this paper. To counteract the adverse affects of the FSO link, a reliable millimeter-wave radio frequency (MMW RF) link is used as a backup. In this context, this paper proposes a cooperative decode-and-forward (DF)-relaying-based hybrid FSO/RF system with maximal-ratio-combining (MRC) at the destination. The system consists of FSO and RF sub-systems, where FSO sub-system has the priority to transmit and RF sub-system serves as a back up when the FSO sub-system is in outage. The exact and asymptotic outage probability and average symbol error rate (SER) expressions for the proposed system are derived in closed-form and the diversity order is determined. The effect of pointing errors on the system performance is analyzed extensively. The optimum values of transmit beam waist and radius of receiver aperture are determined. The theoretical results, which are validated by Monte-Carlo simulations, show that the proposed cooperative hybrid FSO/RF system drastically improves the system performance compared to single hop (SH) hybrid FSO/RF and cooperative FSO systems especially for large pointing errors scenario. Ministry of Education (MOE) Published version This work was supported by the Singapore Ministry of Education Academic Research Fund Tier 1 Grant. 2020-11-26T04:39:00Z 2020-11-26T04:39:00Z 2019 Journal Article Sharma, S., Madhukumar, A. S., & Swaminathan, R. (2019). Effect of pointing errors on the performance of hybrid FSO/RF networks. IEEE Access, 7, 131418-131434. doi:10.1109/ACCESS.2019.2940630 2169-3536 https://hdl.handle.net/10356/144832 10.1109/ACCESS.2019.2940630 7 131418 131434 en IEEE Access © 2019 IEEE. This journal is 100% open access, which means that all content is freely available without charge to users or their institutions. All articles accepted after 12 June 2019 are published under a CC BY 4.0 license, and the author retains copyright. Users are allowed to read, download, copy, distribute, print, search, or link to the full texts of the articles, or use them for any other lawful purpose, as long as proper attribution is given. application/pdf |
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Engineering::Computer science and engineering Hybrid FSO/RF Systems Decode-and-forward Relaying Sharma, Shubha Madhukumar, A. S. Swaminathan, R. Effect of pointing errors on the performance of hybrid FSO/RF networks |
| description |
The performance of a free space optics (FSO) transmission suffers from the atmospheric
turbulence and the attenuation in foggy environment. By employing relay nodes, the error rate and the
coverage area of the FSO communication system can be significantly improved. However, the pointing
errors, generated because of the building sway, have the potential to eradicate the benefits of the relay-based
FSO communication system. The effect of pointing errors in the presence of Gamma Gamma atmospheric
fading together with path loss attenuation is considered in this paper. To counteract the adverse affects
of the FSO link, a reliable millimeter-wave radio frequency (MMW RF) link is used as a backup. In this
context, this paper proposes a cooperative decode-and-forward (DF)-relaying-based hybrid FSO/RF system
with maximal-ratio-combining (MRC) at the destination. The system consists of FSO and RF sub-systems,
where FSO sub-system has the priority to transmit and RF sub-system serves as a back up when the FSO
sub-system is in outage. The exact and asymptotic outage probability and average symbol error rate (SER)
expressions for the proposed system are derived in closed-form and the diversity order is determined. The
effect of pointing errors on the system performance is analyzed extensively. The optimum values of transmit
beam waist and radius of receiver aperture are determined. The theoretical results, which are validated by
Monte-Carlo simulations, show that the proposed cooperative hybrid FSO/RF system drastically improves
the system performance compared to single hop (SH) hybrid FSO/RF and cooperative FSO systems
especially for large pointing errors scenario. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Sharma, Shubha Madhukumar, A. S. Swaminathan, R. |
| format |
Article |
| author |
Sharma, Shubha Madhukumar, A. S. Swaminathan, R. |
| author_sort |
Sharma, Shubha |
| title |
Effect of pointing errors on the performance of hybrid FSO/RF networks |
| title_short |
Effect of pointing errors on the performance of hybrid FSO/RF networks |
| title_full |
Effect of pointing errors on the performance of hybrid FSO/RF networks |
| title_fullStr |
Effect of pointing errors on the performance of hybrid FSO/RF networks |
| title_full_unstemmed |
Effect of pointing errors on the performance of hybrid FSO/RF networks |
| title_sort |
effect of pointing errors on the performance of hybrid fso/rf networks |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144832 |
| _version_ |
1688665288140128256 |