Performance evaluation of dynamically flattened gain L-band RAMAN-EDFA-RAMAN hybrid optical amplifier for super dense wavelength division multiplexing system

In this paper, we have evaluated the performances of super dense Wavelength Division Multiplexing (SD-WDM) system with respect to flat gain. RAMAN-EDFA-RAMAN hybrid optical amplifier (HOA) is the backbone of the system. Further, this model has investigated the effects in terms of L-band flattened gain, output power, crosstalk, and bit error rate with 50 GHz channel spacing. Flat gain greater than 14 dB has obtained at 5 mW and reported the poor performances by 7 mW and 17 mW with the range of 188-192 THz. Gain variation < 2.1 dB has obtained. Highest output power has also obtained at 5 mW, 7Mw and 17 mW accordingly. Final conclusion has recommended that better gain flatness has attained without using any costly components such as gain equalizer and multi-pumping for SD-WDM system

Performance Evaluation of a novel dense hybrid passive optical network for acceptable modulation technique using EDFA amplifiers

Good rating services in terms of high speed data rate, good quality video signal and high speed telecommunication is the prime requirement for the current customers which have resolved in this research work for the first time best of our knowledge for 200 customers with the power amplification from EDFA optical amplifiers. Further, transmission of three play services signals have carried out from different modulation techniques (RZ, NRZ,Manchester, DBPSK and DQPSK modulator) to get the best outcomes. Furthermore, analysis of recommended dense hybrid passive optical network (DHPON) has also done in terms of bit error rate (BER), quality factor (Q-factor), and jitter. Final evaluation has recommended that RZ modulation technique is the acceptable choice to deliver the best services for the customers end

Performance Evaluation of a novel dense hybrid passive optical network for acceptable modulation technique using EDFA amplifiers

787-794Good rating services in terms of high speed data rate, good quality video signal and high speed telecommunication is the prime requirement for the current customers which have resolved in this research work for the first time best of our knowledge for 200 customers with the power amplification from EDFA optical amplifiers. Further, transmission of three play services signals have carried out from different modulation techniques (RZ, NRZ, Manchester, DBPSK and DQPSK modulator) to get the best outcomes. Furthermore, analysis of recommended dense hybrid passive optical network (DHPON) has also done in terms of bit error rate (BER), quality factor (Q-factor), and jitter. Final evaluation has recommended that RZ modulation technique is the acceptable choice to deliver the best services for the customers end

Performance analysis of 80 channels hybrid optical time division dense multiplexing system with the support of different orthogonal modulation techniques

984-989High spectral transmission capacity signals are the prime requirement of today’s dense communication system to enhance the quality of different users services, which have been analyzed and resolved with the support of 80 channels hybrid optical time division dense multiplexing system with different orthogonal modulation techniques (return to zero (RZ), differential quadrature phase shift keying (DQPSK), non-return-to-zero (NRZ), polarization shift keying (PoISK), and differential phase shift keying (DPSK)). Further, evaluation has also been proceeded to receive the best rating results in terms of bit error rate (BER) and quality factor (38 dB to 20 dB) with attainable rating power amplification from Erbium-Doped fiber amplifier (EDFA). Furthermore, final examine has recommended that orthogonal DPSK modulation is the best choice to attain the data rate of 1.80 Tbps from the recommended system for 200 km optical communication with acceptable rating from 10-24 to 10-10

Design and Analysis of a Bi-directional Line Switched Ring for High-Speed Super Dense Communication

254-260Performance of 500 x 10 Gbps super dense Bi-directional Line Switched Ring (SD-BLSR) has been analyzed with channel spacing of 25 GHz. For the first time, best of our knowledge, acceptable rating has recorded at -25 dBm input power and data rate of 30 Gbps with the help of RAMAN-EDFA hybrid optical amplifier (HOA) without using any dispersion compensation and cost effective techniques. Final outcome has also declared to control the channel traffic for present optical communication

Performance Analysis of Bi-directional Optical Network Using Hybrid Optical Amplifier in the Context of Multiplay Services

23-28Performance of bi-directional optical network has evaluated for 400 optical network units (ONUs) using RAMAN-EDFA hybrid optical amplifier (HOA). Further, performances have also recorded in terms of quality factor and eye height for the data rate of 5 Gbps, 10 Gbps, 15 Gbps, 20 Gbps and 25 Gbps respectively for the distance of 60 km to 75 km. Limits of the users have also set to 400 for the analysis of various aspects for multiplay services (data, voice, video and mobile service). Data rate of 5 Gbps has delivered the acceptable outcome for multiplay services (MPS). Furthermore, proposed super dense passive optical network (SD-PON) has also shown the stability among the present current research of art in terms of acceptable rating outcome

Performance analysis of 80 channels hybrid optical time division dense multiplexing system with the support of different orthogonal modulation techniques

High spectral transmission capacity signals are the prime requirement of today’s dense communication system to enhance the quality of different users services, which have been analyzed and resolved with the support of 80 channels hybrid optical time division dense multiplexing system with different orthogonal modulation techniques (return to zero (RZ), differential quadrature phase shift keying (DQPSK), non-return-to-zero (NRZ), polarization shift keying (PoISK), and differential phase shift keying (DPSK)). Further, evaluation has also been proceeded to receive the best rating results in terms of bit error rate (BER) and quality factor (38 dB to 20 dB) with attainable rating power amplification from Erbium-Doped fiber amplifier (EDFA). Furthermore, final examine has recommended that orthogonal DPSK modulation is the best choice to attain the data rate of 1.80 Tbps from the recommended system for 200 km optical communication with acceptable rating from 10-24 to 10-10

Optimization of Hybrid RAMAN-EDFA-RAMAN Optical Amplifier for Super Dense Wavelength Division Multiplexing System

In this paper, we have projected a new optimization approach for Super Dense Wavelength Division Multiplexing (SD-WDM) system with the help of RAMAN-EDFA-RAMAN hybrid optical amplifier (HOA). Evaluation is accomplished with respect to quality factor, noise figure, output power, RAMAN pumps, RAMAN fiber length and effect of jitter. Best rating parameters are noticed for getting the acceptable performance from the proposed system. Further,  evaluation with different dispersion ratings such as 2, 4, 6, and  10 ps/nm/km are made. Furthermore,it is also observed that optimization rating of dispersion at 2 ps/nm/km declares to cover the maximum span distance up to 200 km with the high-quality factor

Optimization of Hybrid RAMAN-EDFA-RAMAN Optical Amplifier for Super Dense Wavelength Division Multiplexing System

845-849In this paper, we have projected a new optimization approach for Super Dense Wavelength Division Multiplexing (SD-WDM) system with the help of RAMAN-EDFA-RAMAN hybrid optical amplifier (HOA). Evaluation has accomplished with respect to quality factor, noise figure, output power, RAMAN pumps, RAMAN fiber length and effect of jitter. Best rating parameters have noticed for getting the acceptable performance from the proposed system. Further, evaluation with different dispersion ratings such as 2, 4, 6, and 10 ps/nm/km has also done. Furthermore, it has also observed that optimization rating of dispersion at 2 ps/nm/km declares to cover the maximum span distance up to 200 km with the high-quality factor