Trends in Opto-Electro & Optical Communication

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In recent times, the ever increasing demand of higher bandwidth and more data rate had led researchers to explore new dimensions in wireless technology. One of the most promising fields is that of free space optics (FSO). Light is used to carry information through space with

the physical medium being the air. This paper investigates the effect on Q-factor and power loss for various advanced modulation schemes under different weather conditions. Modulation techniques namely; DPSK, CSRZ, duobinary and NRZ-OOK are compared in

terms of their performance at different atmospheric conditions. As the power emitted from the transmitter side is always limited, it becomes necessary to find a modulation format that would give a required power at the receiver side maintaining an acceptable bit error rate

(BER). It is highly desirable to get a lower BER for a certain output power. This is one of the important factors that determines the choice of the modulation format, even though not the only one. This thesis focuses on the performance of the main modulation techniques that are feasible for FSO, in actual atmospheric weather conditions.

 

Cite this Article

Mohammad Irfan Khan, Ebad Zahir.

Feasibility Analysis of Advanced

Modulation Techniques for FSO in

Different Weather Conditions. Trends in

 

Opto-Electro & Optic

FSO, DPSK, CSRZ, NRZ-OOK, BER, Q-factor *Author for Correspondence E-mail: [email protected] INTRODUCTION FSO technology refers to the point-to-point transfer of information through free space using optical radiation as the carrier signal. The term free