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General Information
ISSN:
1796-2021 (Online); 2374-4367 (Print)
Abbreviated Title:
J. Commun.
Frequency:
Monthly
DOI:
10.12720/jcm
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Acceptance Rate:
27%
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800 USD
Average Days to Accept:
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3.4
2023
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Editor-in-Chief
Prof. Maode Ma
College of Engineering, Qatar University, Doha, Qatar
I'm very happy and honored to take on the position of editor-in-chief of JCM, which is a high-quality journal with potential and I'll try my every effort to bring JCM to a next level...
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Home
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2019
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Volume 14, No. 5, May 2019
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Simulative Analyzing of Covering Suburban Areas with 32 × 10 Gbps DWDM-PON FTTH Using Different Dispersion and Power
Mustafa H. Ali
1
, Ali M. Almufti
2
, and Hiba A. Abu-Alsaad
3
1. Department of Computer science, College of Education, Mustansiriyah University, Baghdad 14022, Iraq
2. Department of Electronics and Communications Engineering, College of Engineering, Al-Nahrain University, Baghdad 64001, Iraq
3. Department of Computer Engineering, College of Engineering, Mustansiriyah University, Baghdad 14022, Iraq
Abstract
—This paper contains an analyzing investigation of 32 channel - 10 Gbps DWDM-PON FTTH Simulate reaching a village in suburban area in environment that cannot put any sub node (amplifier or repeater) in the middle of the distance, therefore we design a system that deliver the CO signal directly from the OLT in the central of the city to the houses of the village all the way passive. to accomplish that we need a constant channel Spacing equal 100 GHz. with different dispersion (2,4,6,8,10 ps/nm.km) and power (-10, -5, -3,0,3,5,10) at the end of comparison of BER and Q factor for DWDM systems we reach a maximum distance 129 km with Q factor = 6.16 and BER = 3.44 e-10 in the presence of nonlinearities. This system can be severely limited by dispersion as we know smaller the dispersion the better the Q- factor but we will prove, not always the smaller the dispersion the better the Q-factor as we will see in some distance like 60,80 km the best performance is done with dispersion equal to 4, 6 and sometime 8 ns/nm.km not 2.
Index Terms
—Dispersion, BER, Q-Factor, (DWDM- PON), FTTH, OPTISYSTEM
Cite: Mustafa H. Ali, Ali M. Almufti, and Hiba A. Abu-Alsaad, "Simulative Analyzing of Covering Suburban Areas with 32 × 10 Gbps DWDM-PON FTTH Using Different Dispersion and Power," Journal of Communications, vol. 14, no. 5, pp. 381-389, 2019. Doi: 10.12720/jcm.14.5.381-389
8-JCM170235
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