Electrical & Electronics Engineering
Permanent URI for this collectionhttps://hdl.handle.net/10679/44
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Browsing by Author "Abdaoui, A."
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ArticlePublication Metadata only On the effects of combined atmospheric fading and misalignment on the hybrid FSO/RF transmission(The Optical Society, 2016) Touati, A.; Abdaoui, A.; Touati, F.; Uysal, Murat; Bouallegue, A.; Electrical & Electronics Engineering; UYSAL, MuratFree-space optical (FSO) communication is known for its various impairments such as atmospheric turbulence and misalignment fading. In this paper, we study the performance of an FSO link operating under combined path loss and atmospheric and misalignment fadings. We derive a closed-form expression for the bit error rate (BER) of the FSO link in such conditions when the on–off keying (OOK) modulation is employed and when the fluctuations of the received signal are modeled by Gamma–Gamma distribution. In addition, we evaluate the effects of the combined fadings on the outage probability of the FSO link for different strengths of turbulence and pointing errors. Furthermore, we investigate the advantages of combining radio frequency (RF) with FSO to form hybrid FSO/RF systems. The RF link is based on 16 quadrature amplitude modulation (16-QAM) and on Rician channel fading. We study the performance of the hybrid FSO/RF system in terms of outage probability and BER and find that the hybrid FSO/RF system can overcome the weaknesses of FSO links, which are sensitive to atmospheric variations and misalignment fading.Conference ObjectPublication Metadata only On the effects of temperature on the performances of FSO transmission under qatar's climate(IEEE, 2017-11-14) Touati, A.; Abdaoui, A.; Touati, F.; Uysal, Murat; Bouallegue, A.; Electrical & Electronics Engineering; UYSAL, MuratStrong atmospheric turbulence can highly affect the free space optical (FSO) link. In fact, the strength of turbulence is depending on weather factors where the temperature is considered as the main parameter increasing these turbulences. In this work, an experimental investigation of the effect of Qatar's harsh climate on FSO link in term of packet ratio delivery (PDR) is carried out. Two FSO transceivers, operating June at 1550 nm for 600 m link distance, have been used. Based on Bendersky, Kopeika and Blaunstein (BKB) model and on the measured weather factors we tried to characterise the strength of turbulences under Qatar climate.