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INTERNATIONAL JOURNAL OF SCIENTIFIC DEVELOPMENT AND RESEARCH International Peer Reviewed & Refereed Journals, Open Access Journal ISSN Approved Journal No: 2455-2631 | Impact factor: 8.15 | ESTD Year: 2016 open access , Peer-reviewed, and Refereed Journals, Impact factor 8.15 |
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| Paper Title: | Improved Filtration Based Q-Factor For Free Space Optical Communication Under Effect Of Haze |
| Authors Name: | Muneeb Farooq Sofi , Er Harmandeep Kaur |
| Unique Id: | IJSDR2009003 |
| Published In: | Volume 5 Issue 9, September-2020 |
| Abstract: | In recent times, the FSO communication has became more prominent than other optical communication systems due to its inimitable characteristics like high bandwidth, license free spectrum, easy implementation, high security, etc. However, there are several constrains that limit the performance of FSO system and the most significant one is the effect of different weather conditions and atmospheric attenuation. This climatic turbulence greatly affects the FSO system performance that is associated with the visibility of various climatic states. It has been analyzed that as compared to other weather conditions, haze condition mainly affects the FSO and leads to increase in attenuation, which then results in high Bit Error Rate and degraded quality factor. Therefore, to overcome this issue, the optical filter is introduced in this paper in order to reduce the noise. Along with that, the amplification technique is introduced in the proposed system in order to boost the signal. It will help to minimize the attenuation which can lead to enhanced quality factor and minimum BER which can then make the system more efficient. The proposed approach is then implemented and various parameters are considered for the simulation i.e. BER, Q-factor and power attenuation at different distances in the haze weather condition. |
| Keywords: | FSO, Atmospheric turbulence, Haze effect, Optical filter, Amplification |
| Cite Article: | "Improved Filtration Based Q-Factor For Free Space Optical Communication Under Effect Of Haze", International Journal of Science & Engineering Development Research (www.ijsdr.org), ISSN:2455-2631, Vol.5, Issue 9, page no.17 - 22, September-2020, Available :http://www.ijsdr.org/papers/IJSDR2009003.pdf |
| Downloads: | 000337078 |
| Publication Details: | Published Paper ID: IJSDR2009003 Registration ID:192401 Published In: Volume 5 Issue 9, September-2020 DOI (Digital Object Identifier): Page No: 17 - 22 Publisher: IJSDR | www.ijsdr.org ISSN Number: 2455-2631 |
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