scholarly journals Dual-polarization OFDM-OQAM for communications over optical fibers with coherent detection

2013 ◽  
Vol 21 (5) ◽  
pp. 6409 ◽  
Author(s):  
François Horlin ◽  
Jessica Fickers ◽  
Philippe Emplit ◽  
André Bourdoux ◽  
Jérome Louveaux
Keyword(s):  
Optical Fibers ◽  
Coherent Detection ◽  
Dual Polarization

scholarly journals Dithering Analysis in an Orthogonal Frequency Division Multiplexing-Radio over Fiber Link

2016 ◽  
Vol 6 (3) ◽  
pp. 1112
Author(s):  
Fakhriy Hario P ◽  
Adhi Susanto ◽  
I Wayan Mustika ◽  
Sevia M Idrus ◽  
Sholeh Hadi P
Keyword(s):  
Optical Fibers ◽  
Orthogonal Frequency Division Multiplexing ◽  
High Efficiency ◽  
Power Level ◽  
High Capacity ◽  
Coherent Detection ◽  
Frequency Division ◽  
Close Proximity ◽  
Qam Modulation ◽  
Fiber Link

Nonlinearity is one major problem broadband communication faced on utilizing the high capacity of optical fibers. That is due to scattering  phenomenon, which results in the deviations of wavelengths and energies. The dithering method is applied in the attempt to reduce those scatterings. In this paper, we propose the performance of a dithering technique based new system OFDM-RoF using two modulator scheme and coherent detection to alleviate the characteristics nonlinearity applied on the system. The dithering technique inputs signal externally to the signal processing systems to eliminate the effects of nonlinearity. Here, we report the performance of a dithering technique based on the OFDM-RoF, the results our experiment showed that the applied dithering with 16 QAM modulation can make the system more reliable and increases  the power level 1.55% with 193.1 THz, 2% with  100 THz and 1.99% ~ 200 THz, the best condition are with f<sub>d</sub> &lt; f<sub>c</sub>. However, all condition close proximity in the parameters OLP (optical launch power), BER and SER measurement. The result demonstrated a high efficiency and good power in which the OLP operated 6.396 dBm / 4.361 E-3 W~fd 200 THz, 3.578 dBm / 2.279 E-3 W~fd 193.1 THz and 6.420 dBm / 4.3384 E-3 W~100 THz. The best BER value is achieved at 0.33 and SER 0.78 at 5 km~f<sub>d</sub> 100 THz, 0.33 and 0.768 for 10 km~fd 193.1 THz, 0.478 and 0.92 for 50 km~fd 193.1 THz.

Dithering Analysis in an Orthogonal Frequency Division Multiplexing-Radio over Fiber Link

2016 ◽  
Vol 6 (3) ◽  
pp. 1112
Author(s):  
Fakhriy Hario P ◽  
Adhi Susanto ◽  
I Wayan Mustika ◽  
Sevia M Idrus ◽  
Sholeh Hadi P
Keyword(s):  
Optical Fibers ◽  
Orthogonal Frequency Division Multiplexing ◽  
High Efficiency ◽  
Power Level ◽  
High Capacity ◽  
Coherent Detection ◽  
Frequency Division ◽  
Close Proximity ◽  
Qam Modulation ◽  
Fiber Link

Nonlinearity is one major problem broadband communication faced on utilizing the high capacity of optical fibers. That is due to scattering  phenomenon, which results in the deviations of wavelengths and energies. The dithering method is applied in the attempt to reduce those scatterings. In this paper, we propose the performance of a dithering technique based new system OFDM-RoF using two modulator scheme and coherent detection to alleviate the characteristics nonlinearity applied on the system. The dithering technique inputs signal externally to the signal processing systems to eliminate the effects of nonlinearity. Here, we report the performance of a dithering technique based on the OFDM-RoF, the results our experiment showed that the applied dithering with 16 QAM modulation can make the system more reliable and increases  the power level 1.55% with 193.1 THz, 2% with  100 THz and 1.99% ~ 200 THz, the best condition are with f<sub>d</sub> &lt; f<sub>c</sub>. However, all condition close proximity in the parameters OLP (optical launch power), BER and SER measurement. The result demonstrated a high efficiency and good power in which the OLP operated 6.396 dBm / 4.361 E-3 W~fd 200 THz, 3.578 dBm / 2.279 E-3 W~fd 193.1 THz and 6.420 dBm / 4.3384 E-3 W~100 THz. The best BER value is achieved at 0.33 and SER 0.78 at 5 km~f<sub>d</sub> 100 THz, 0.33 and 0.768 for 10 km~fd 193.1 THz, 0.478 and 0.92 for 50 km~fd 193.1 THz.

Silicon-based optical links using novel direct detection, coherent detection and dual polarization methods for new generation transport architectures

2019 ◽  
Vol 450 ◽  
pp. 48-60 ◽  
Author(s):  
Md Ghulam Saber ◽  
Gemma Vall-Llosera ◽  
David Patel ◽  
Alireza Samani ◽  
Rui Li ◽  
...  
Keyword(s):  
Direct Detection ◽  
Coherent Detection ◽  
Dual Polarization ◽  
Optical Links ◽  
Silicon Based ◽  
New Generation

Digital Filtering Algorithms for 112Gb/s Dual Polarization QPSK Optical Systems with Coherent Detection

2010 ◽  
Author(s):  
Vitor B. Ribeiro ◽  
Julio C. Diniz ◽  
Julio C. Oliveira ◽  
Adolfo F. Herbster ◽  
Aldario C. Bordonalli
Keyword(s):  
Digital Filtering ◽  
Coherent Detection ◽  
Optical Systems ◽  
Dual Polarization ◽  
Filtering Algorithms

High-voltage monitoring by the fiber-optic recirculating measuring system

2020 ◽  
pp. 38-44
Author(s):  
A. V. Polyakov ◽  
M. A. Ksenofontov
Keyword(s):  
Optical Fibers ◽  
High Voltage ◽  
Optical Sensors ◽  
Electromagnetic Interference ◽  
Fiber Optic ◽  
Electric Power Industry ◽  
Measuring System ◽  
Voltage Range ◽  
External Electromagnetic Fields ◽  
Optic Communication

Optical technologies for measuring electrical quantities attract great attention due to their unique properties and significant advantages over other technologies used in high-voltage electric power industry: the use of optical fibers ensures high stability of measuring equipment to electromagnetic interference and galvanic isolation of high-voltage sensors; external electromagnetic fields do not influence the data transmitted from optical sensors via fiber-optic communication lines; problems associated with ground loops are eliminated, there are no side electromagnetic radiation and crosstalk between the channels. The structure and operation principle of a quasi-distributed fiber-optic high-voltage monitoring system is presented. The sensitive element is a combination of a piezo-ceramic tube with an optical fiber wound around it. The device uses reverse transverse piezoelectric effect. The measurement principle is based on recording the change in the recirculation frequency under the applied voltage influence. When the measuring sections are arranged in ascending order of the measured effective voltages relative to the receiving-transmitting unit, a relative resolution of 0,3–0,45 % is achieved for the PZT-5H and 0,8–1,2 % for the PZT-4 in the voltage range 20–150 kV.

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