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2024 | OriginalPaper | Buchkapitel

Analyzing the Role of DCF in Symmetrical Compensated Network Using Dispersion Compensation Technique

verfasst von : Himali Sarangal, Manjit Singh, Harmandar Kaur, Butta Singh, Satveer Kour

Erschienen in: Evolution in Signal Processing and Telecommunication Networks

Verlag: Springer Nature Singapore

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Abstract

In optical communication system, dispersion compensation techniques are used to lessen the effects of chromatic dispersion, that degrade the quality and performance of transmitted signals. Dispersion compensation techniques play a crucial role in maintaining signal quality, extending transmission distances, enhancing system performance, and providing flexibility in network design in optical communication systems. These techniques aim to minimize or eliminate the distortion caused by dispersion, allowing for longer distance transmission and better signal quality. This paper presents an analysis of the role of the dispersion compensating fiber in an optical fiber communication link. The existence of dispersion is detrimental to the whole system performance. The use of compensation schemes can help to reduce dispersion effects that can induce crosstalk and hamper the system performance. The length of the dispersion compensation fiber is varied from 10 to 30 km to study its effect on the system performance in provisions of the Q-value, eye height and the BER.

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Vorheriges Kapitel Qualitative Analysis of WOC Channel-Based Optical Communication System

Nächstes Kapitel Improved Design of Microstrip Low Pass Filter by Using Numerous Metamaterial Patterns

Proakis JG (2001) Digital communications, 4th edn. McGraw Hill, New York

Agrawal GP (2001) Applications of nonlinear fiber optics. Academic Press, San Diego

Kogelnik LH, Cohen LG (1980) Optical-pulse equalization of low dispersion transmission in single-mode fibers in the 1.3–1.7 μm spectral region. Opt Lett 5(11):476–478

Dugan JM, Price AJ et al (1992) All-optical, fiber-based 1550 nm dispersion compensation in a 10 GB/s, 150 km transmission experiment over 1310 nm optimized fiber. Optical Fiber Communication (OFC), San Jose, CA

Sarangal H, Thapar SS, Nisar K, Singh M, Malhotra J (2021) Performance estimation of 100 GB/s hybrid SACOCDMA-FSO-MDM system under atmospheric turbulences. Opt Quant Electron 53:598CrossRef

Zhao R, Xu N, Shang X, Zhao L, Zhang H, Li D (2021) Generation of Q-switched-mode-locked operations in Er-doped fiber laser based on dispersion compensating fiber saturable absorber. J Luminescence J Luminescence 234:117966CrossRef

Huang L, Liu S, Zheng B, Zhao Y, Dang L, Gao L, Huang W, Yin G, Zhu T (2023) Narrowband all-fiber acousto-optic tunable add-drop filter based on dispersion-compensating fiber. Opt Laser Technol 167:109759CrossRef

Liu Y, Wang J, Li Y, Wang R, Li J, Xie X (2012) A novel hybrid photonic crystal dispersion compensating fiber with multiple windows. Opt Laser Technol 44:2076–2079CrossRef

Kaur G, Kaur N (2014) Use of dispersion compensating fiber in optical transmission network for NRZ modulation format. Int J Eng Comput Sci 3(5):5839–5842. ISSN: 2319-7242

10.

Shen S, Weiner AM (1999) Complete dispersion compensation for 400-fs pulse transmission over 10-km fiber link using dispersion compensating fiber and spectral phase equalizer. IEEE Photon Technol Lett 11(7):827–829CrossRef

11.

Kaler RS, Sharma A, Kamal TS (2002) Comparison of pre-, post- and symmetrical- dispersion compensation schemes for 10 GB/s NRZ links using standard and dispersion compensated fibers. Elsevier Opt Commun 209:107–123CrossRef

12.

Kumari M, Sarangal H (2015) Performance analysis of zero cross-correlation code in SAC-OCDMA with DCF and EDFA. Int J Sci Technol Manage 4(1):1186–1191

13.

Kaler RS. Simulation of 16 × 10 dB/s WDM system based on optical amplifiers at different transmission distance and dispersion. Optik 123:1654–1658

14.

Singh G, Seehra A, Singh S (2014) Investigations on order and width of RZ super Gaussian pulse in different WDM systems at 40 GB/s using dispersion compensating fibers. Optik 125:4270–4273CrossRef

15.

Nuyts RJ, Park YK, Gallion P (1997) Dispersion equalization of a 10 GB/s repeated transmission system using dispersion compensating fibers. J Lightw Technol 1:31–42

16.

Sarangal H, Singh A, Malhotra J (2013) Simulative investigation to enhance the transmission performance of ZCC code in SAC OCDMA. Int J Eng Manage Resour 3(6):161–164

17.

Saleh S, Cholan NA, Sulaiman AH, Mahadi MA (2016) Self-seeded four wave mixing cascaded utilizing fiber brag grating. In: International conference on advances in electrical, electronic and system engineering, Malaysia

18.

Nisar K, Sarangal H, Thapar SS, Qutubuddin M, Rahmath M (2018) Performance analysis of permutation matrix zero cross correlation code for SAC-OCDMA systems. Euro J Eng Res Sci 3(1)

19.

Sarangal H, Singh A, Malhotra J (2019) Construction and analysis of a novel SAC-OCDMA system with EDW coding using direct detection technique. J Opt Commun 40(3):265–271CrossRef

20.

Sarangal H, Singh A, Malhotra J, Chaudhary S (2017) A cost effective 100 Gbps hybrid MDM-OCDMA-FSO transmission system under atmospheric turbulences. Opt Quant Electron 49:184CrossRef

21.

Singh M, Sappal AS (2021) Digital predistortion of radio over fiber (RoF) link using hybrid memetic algorithm. J Opt Commun. https://doi.org/10.1515/joc-2021-0041

22.

Chaudhary S, Amphawan A (2017) Optimization of AMI-MDM-RoFSO under atmospheric turbulence. Intl Conf Appl Photonics Electron 2017 (Incape2017) 162:1–4. https://doi.org/10.1051/epjconf/201716201020

23.

Sayed AF, Mustafa FM, Khalaf AAM et al (2021) Symmetrical and post dispersion compensation in WDM optical communication systems. Opt Quant Electron 53:37. https://doi.org/10.1007/s11082-020-02663-4CrossRef

24.

Wang XH, Zheng LZ, Xin LC, Bai WH, Xu H (2019) A long single-span dispersion-decreasing-like fiber transmission system. Opt Laser Technol 116:338–344CrossRef

25.

Singh M, Sappal AS (2020) Radio over fiber (RoF) link modelling using cross term memory polynomial. J Opt Commun. https://doi.org/10.1515/joc-2020-0102

26.

Meng K, Sun S, Li M, Wang Z (2023) 57-fs, Er-doped all-fiber all-polarization-maintaining amplifier based on a hybrid DCF/FBG scheme for dispersion compensation. Res Opt 11:100408. https://doi.org/10.1016/j.rio.2023.100408CrossRef

27.

Wang F, Lu Y, Wang X, Ma T, Li L, Yu K, Liu Y, Li C, Chen Y (2021) A highly sensitive temperature sensor with a PDMS-coated tapered dispersion compensation fiber structure. Opt Commun 497:127183. https://doi.org/10.1016/j.optcom.2021.127183CrossRef

28.

Ma F, Li P, Shi W (2023) Residual dispersion compensation photonic crystal fiber based on simulated annealing algorithm and Livelink data interaction. Opt Fiber Technol 81:103462. https://doi.org/10.1016/j.yofte.2023.103462CrossRef

29.

Meena M, Kumar Gupta R (2019) Design and comparative performance evaluation of chirped FBG dispersion compensation with DCF technique for DWDM optical transmission systems. Optik 188:212–224

30.

Wang F, Zhang L, Ma T, Wang X, Yu K, Liu Y (2021) A high-sensitivity sensor based on tapered dispersion compensation fiber for curvature and temperature measurement. Opt Commun 481:126534CrossRef

Titel: Analyzing the Role of DCF in Symmetrical Compensated Network Using Dispersion Compensation Technique
verfasst von: Himali Sarangal
Manjit Singh
Harmandar Kaur
Butta Singh
Satveer Kour
Verlag: Springer Nature Singapore
Buch: Evolution in Signal Processing and Telecommunication Networks
Print ISBN: 978-981-9706-43-3

Electronic ISBN: 978-981-9706-44-0

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-981-97-0644-0_11

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