ANALYSING THE PERFORMANCE OF EDFA AND APD RECEIVER IN DYNAMIC WDN NETWORK
DOI:
https://doi.org/10.22159/ajpcr.2017.v10s1.19635Keywords:
Wavelength Division Multiplexing, Erbium doped fiber Amplifier, Eye pattern, Bit Error RateAbstract
This paper demonstrates the performance of Erbium doped fiber  amplifier(EDFA) and APD receiver in a dynamic wavelength division multiplexing(WDM) system. A four channel 10Gb/s system is taken into consideration and the performance of Erbium doped fiber Amplifier is assessed. The experimental setup consists of a transmitter, a receiver and two  intermediate nodes. The transmitted system is tested for Bit Error Rate (BER) and Eye pattern at the receiver. The spectrum is also analysed for different length of fiber. Add Drop Experiment was carried on in which a laser source was switched on and off continuously to assess the transient response  of WDM system. Then the Eye Pattern is analysed in which Erbium doped fiber Amplifier system will provide a clear open eye with no degradation of signal.
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Zhang Y, Chowdhury P, Tornatore M, Mukherjee B. Energy efficiency in telecom optical networks. IEEE Commun Surv Tutor
;12(4):441-58.
Baziana PA, Pountourakis IE. Performance optimization with propagation delay analysis in WDM networks. Comput Commun
;30:3572-85.
Yamazaki E, Inuzuka F, Yonenaga K, Takada A, Koga M. Compensation of Interchannel crosstalk induced by optical fiber
nonlinearity in carrier phase-locked WDM system. IEEE Photon Technol Lett 2007;19:9-11.
Sun Y, Srivastava AK, Zyskind JL, Sulhoff JW, Strasser TA, Wolf C, et al. Signal power variations in optically amplified WDM ring
networks. In: European Conference on Optical Communications; 1997. p. 135-7.
Dijaili SP. LOA’s enable next-generation metro networks. Lightwave Mag 2001;???:178-87.
Francis DA, Dijaili SP, Walker JD. A single chip linear optical amplifier. Presented at the Proceedings Optical Fiber Communication
Conference. Anaheim, CA; 2001.
Spiekman LH, van den Hoven GN, van Dongen T, Sander-Jochem MJ,
Binsma JJ, Wiesenfeld JM, et al. Recent advances in WDM applications of semiconductor optical amplifiers. In: Proceedings of 26
European Conference on Optical Communication. Vol. 1. Invited Paper. Munich, Germany; 2000. p. 35-8.
Neukermans A, Ramaswami R. MEMS technology for optical networking applications. IEEE Commun Mag 2001;39:62-9.
Srivastava AK, Sun Y, Zyskind JL, Sulhoff JW. EDFA transient thresponse to channel loss in WDM transmission system. IEEE Photon
Technol Lett 1997;9:386-8.
Jiang X, Roudas I. Asymmetric probability density functions of a signal with interferometric crosstalk. IEEE Photon Technol Lett
;13:160-2.
Forestieri E. Evaluating the error probability in lightwave systems with chromatic dispersion, arbitrary pulse shape and pre - and post detection filtering. J Lightwave Technol 2000;18:1493-503.
Marcuse D. Derivation of analytical expressions for the bit-error probability in lightwave systems with optical amplifiers. J Lightwave
Technol 1990;18:1816-23.
Abramowitz A, Stegun I. Handbook of Mathematical Functions. 9 ed. New York: Dover; 1972.
Dods SD, Anderson TB. Calculation of bit-error rates and power penalties due to incoherent crosstalk in optical networks using Taylor
Series expansions. J Lightwave Technol 2005;23:1828-37.
Murthy CS, Gurusamy MD. WDM Optical Networks. New Delhi: Pearson Education; 2004.th
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