Impact of Link Parameters and Channel Correlation on the Performance of FSO Systems With the Differential Signaling Technique

Mojtaba Mansour Abadi; Zabih Ghassemlooy; Stanislav Zvanovec; Manav R. Bhatnagar; Mohammad-Ali Khalighi; Yongle Wu

doi:10.1364/JOCN.9.000138

Journal of Optical Communications and Networking
Vol. 9,
Issue 2,
pp. 138-148
(2017)
•https://doi.org/10.1364/JOCN.9.000138

Impact of Link Parameters and Channel Correlation on the Performance of FSO Systems With the Differential Signaling Technique

Mojtaba Mansour Abadi, Zabih Ghassemlooy, Stanislav Zvanovec, Manav R. Bhatnagar, Mohammad-Ali Khalighi, and Yongle Wu

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Mojtaba Mansour Abadi, Zabih Ghassemlooy, Stanislav Zvanovec, Manav R. Bhatnagar, Mohammad-Ali Khalighi, and Yongle Wu, "Impact of Link Parameters and Channel Correlation on the Performance of FSO Systems With the Differential Signaling Technique," J. Opt. Commun. Netw. 9, 138-148 (2017)

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Abstract

We investigate the effects of link parameters and the channel correlation coefficient on the detection threshold, $Q$ -factor, and bit-error-rate (BER) of a free-space optical system employing a differential signaling scheme. In systems employing differential signaling schemes, the mean value of the signal is used as the detection threshold level, provided that differential links are identical or highly correlated. However, in reality, the underlying links are not essentially identical and have a low level of correlation. To show the significance of the link parameters as well as the correlation coefficient, we derive analytical relations describing the effect of weak turbulence and we determine the improvement of $Q$ -factor with the channel correlation. Further, for the same signal-to-noise ratio, we demonstrate that a link with a higher extinction ratio offers improved performance. We also propose a closed-form expression of the system BER. We present experimental results showing improved $Q$ -factor for the correlated channel case compared to the uncorrelated channel.

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Corrections

Mojtaba Mansour Abadi, Zabih Ghassemlooy, Stanislav Zvanovec, Manav R. Bhatnagar, Mohammad-Ali Khalighi, and Yongle Wu, "Impact of Link Parameters and Channel Correlation on the Performance of FSO Systems With the Differential Signaling Technique: errata," J. Opt. Commun. Netw. 9, 1062-1063 (2017)
https://opg.optica.org/jocn/abstract.cfm?uri=jocn-9-11-1062

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$ε$	SNR (dB)	Link	Mean (mV)^b	$\sqrt{Var} (mV)$ ^b
5	12.2	SISO	7.1, 8.1	3.0, 3.3
		DS	0.0, 0.0	1.9, 2.0
10	14	SISO	7.1, 8.1	3.0, 3.4
		DS	0.0, 0.0	1.9, 1.8

	Parameter	Value
	Data rate NRZ-OOK	100 kbps
	Chamber length $L$	6 m
Link 1	Optical transmit power	10 dBm
	Divergence angle	9.5 mDeg
	PD responsivity $R_{1}$	0.3 A/W
	Wavelength $λ_{1}$	830 nm
Link 2	Optical transmit power	3 dBm
	Divergence angle	4.8 mdeg
	PD responsivity $R_{2}$	0.4 A/W
	Wavelength $λ_{2}$	670 nm
	OR noise rms $\sqrt{σ_{n}^{2}}$	1.5 mV

Channel Condition	Measured $Q$	Predicted $Q$	$ρ_{1, 2}$	$C_{n}^{2} (m^{- 2 / 3})$	$σ_{R}^{2}$
Uncorrelated	6.32	6.95	0	$5 \times 10^{- 11}$	0.63
Correlated	10.13	11.14	0.7	$5 \times 10^{- 11}$	0.63

$ε$	SNR (dB)	Link	Mean (mV)^b	$\sqrt{Var} (mV)$ ^b
5	12.2	SISO	7.1, 8.1	3.0, 3.3
		DS	0.0, 0.0	1.9, 2.0
10	14	SISO	7.1, 8.1	3.0, 3.4
		DS	0.0, 0.0	1.9, 1.8

	Parameter	Value
	Data rate NRZ-OOK	100 kbps
	Chamber length $L$	6 m
Link 1	Optical transmit power	10 dBm
	Divergence angle	9.5 mDeg
	PD responsivity $R_{1}$	0.3 A/W
	Wavelength $λ_{1}$	830 nm
Link 2	Optical transmit power	3 dBm
	Divergence angle	4.8 mdeg
	PD responsivity $R_{2}$	0.4 A/W
	Wavelength $λ_{2}$	670 nm
	OR noise rms $\sqrt{σ_{n}^{2}}$	1.5 mV

Impact of Link Parameters and Channel Correlation on the Performance of FSO Systems With the Differential Signaling Technique

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Tables (3)

Equations (27)

Journal of Optical Communications and Networking