Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. The variation of BER when the relative phase and delay between channels are randomly.

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Transmission System Design

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Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. The variation of BER when the relative phase and delay between channels are randomly varied (transmission distance 1360 km, Pin 4 dBm, channel spacing 60 GHz). Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. BER degradation due to random fluctuations of optical input power to each span. The x-axis represents the standard deviation of the power variation in dB. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. BER degradation due to uniform drift of the fiber dispersion. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Five-channel WDM transmissions with precompensation by digital back-propagation and 95% in-line dispersion compensation (i.e., 5% under-compensated spans. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. (a) WDM (solid symbols) and single-channel (hollow symbols) transmission distances from the system using digital precompensation. In the case of WDM, five channels spaced at 100 GHz were used. The ratio of in-line dispersion compensation is indicated in the figure. (b) The maximum transmission distance obtained with the optimized power for each in-line dispersion compensation ratio. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. BER performance of single-channel transmissions vs. input power to each span. with precompensation (solid symbols) and without precompensation (hollow symbols). Each type of symbol represents a different ratio of dispersion compensation by in-line DCU in each span. “100%” means complete in-line dispersion compensation, while “0%” means entire dispersion compensation at the end of the transmission link. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Schematic diagram of (a) transmitter and (b) receiver. Black arrows: optical signal, grey arrows: electrical signal, hollow arrows: digital signal, PS: power splitter, AWG: arbitrary waveform generator, ADC: analog-to-digital converter. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Schematic diagram of the transmission system. TX: transmitter, RX: receiver, TF: transmission fiber, OA: optical amplifier, OF: optical filter, DCU1: in-line dispersion compensation unit, DCU2: dispersion compensation unit at the receiver site. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. BER degradation due to random variations of the fiber dispersion. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Comparison of the BER degradations from span length variation (black, red, and blue symbols) and fiber dispersion variation (green inverted triangles). Input power to each span was kept constant at 4 dBm in both cases. For the dispersion variation case, the effective length variation defined in Eq. (3) is used as the x-axis. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE

Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Constellation diagram of the 32 level (4 amplitude levels × 8 phase levels) ADPSK modulation format used in this work. Figure Legend: From: Numerical study on wavelength-division multiplexing transmission of direct- detected amplitude and differential phase-shift keying-modulated signals using digital back-propagation Opt. Eng. 2012;51(2): doi: /1.OE