DEVELOPMENT OF OPTICAL SIGNAL REGENERATION TECHNIQUE USING ULTRASCALE FIELD PROGRAMMING GATE ARRAY
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Date
2018-05-01
Authors
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Publisher
جامعة الوادي university of eloued
Abstract
The optical signal regeneration is a demanding research area for long-haul optical
communication systems. The existing optical signal regeneration techniques are not
facilitating for low BER in real-time. In this paper, a new optical signal regeneration
technique is developed that provides low BER in real-time for 10Gb/s optical degraded signal
for Differential Phase Shift Keying (DPSK) signal at different transmission distances between
50 km to 250 km. The developed optical signal regeneration technique has achieved a very
low Bit Error Rate (BER) of 10 -13 at low received the power of -17 dBm averagely for DPSK
signal at different transmission distances experimentally via UltraScale FPGA.
Description
artical
Keywords
Bit Error Rate (BER); Differential Phase Shift Keying (DPSK) signal; Optical Signal Regeneration, Field Programming Gate Array
Citation
B. Das 1 , M. F. L. Abdullah. DEVELOPMENT OF OPTICAL SIGNAL REGENERATION TECHNIQUE USING ULTRASCALE FIELD PROGRAMMING GATE ARRAYS. Journal of Fundamental and sciences. vol.10, no 2. May 2018. Faculty of exact sciences. university of el oued. [visited in 23/03/2018]. available from [http://www.jfas.info]