Laser Frequency Drift Compensation with Han-Kobayashi Coding in Superchannel Nonlinear Optical Communications
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1 MITSUBISHI ELECTRIC RESEARCH LABORATORIES Laser Frequency Drift Compensation with Han-Kobayashi Coding in Superchannel Nonlinear Optical Communications Koie-Aino, T.; Millar, D.S.; Kojima, K.; Parsons, K. TR- September Abstract We investigate the impact of laser frequency drift, which can cause inter-channel interference (ICI) in superchannel communications. We show that Han-Kobayashi coding significantly improves robustness against the drift, achieving -times higher achievable rate than conventional coding. European Conference on Optical Communication (ECOC) This wor may not be copied or reproduced in whole or in part for any commercial purpose. Permission to copy in whole or in part without payment of fee is granted for nonprofit educational and research purposes provided that all such whole or partial copies include the following: a notice that such copying is by permission of Mitsubishi Electric Research Laboratories, Inc.; an acnowledgment of the authors and individual contributions to the wor; and all applicable portions of the copyright notice. Copying, reproduction, or republishing for any other purpose shall require a license with payment of fee to Mitsubishi Electric Research Laboratories, Inc. All rights reserved. Copyright c Mitsubishi Electric Research Laboratories, Inc., Broadway, Cambridge, Massachusetts
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3 Laser Frequency Drift Compensation with Han Kobayashi Coding in Superchannel Nonlinear Optical Communications Toshiai Koie-Aino, David S. Millar, Keisue Kojima, Kieran Parsons Mitsubishi Electric Research Labs., Broadway, Cambridge, MA, USA, Abstract We investigate the impact of laser frequency drift, which can cause inter-channel interference (ICI) in superchannel communications. We show that Han Kobayashi coding significantly improves robustness against the drift, achieving -times higher achievable rate than conventional coding. Introduction The demand of high-speed data rates in optical communications has brought advanced technologies including superchannel transmission, where parallel transmitters send independent data using different wavelengths to increase total throughput. The spectral efficiency increases as the channel spacing decreases. However, interchannel interference (ICI) can be a major limiting factor to realize dense channel allocation. In order to handle ICI in superchannel transmissions, we have proposed to use Han Kobayashi (HK) coding, which showed significant gain in spectral efficiency in the presence of strong ICI for super-dense sub-nyquist channel spacings. It was expected that the HK coding will enable increased robustness to other practical hardware imperfections such as laser frequency drift and mistuning, which can cause probabilistic ICI even for quasi-nyquist channel spacings. This paper studies the gain of the HK coding in the presence of laser frequency drift. We show that the spectral efficiency can be improved by the HK coding, especially when a large deviation of laser frequency is present. This may reduce requirements for laser frequency stabilization, leading to lower complexity and power consumption. Superchannels with laser frequency drift We consider a superchannel transmission system with N ch =subchannels. Fig. shows an example of power spectrum of superchannel signals for the case when the channel spacing normalized by baud rate B is f =. so that no ICI is present with a root-raised-cosine (RRC) filter of rolloff factor.. Although such a quasi-nyquist system achieves the highest spectral efficiency, the system can be readily suffered from some hardware imperfections such as laser frequency drift. It is shown in Fig. that undesired ICI across adjacent subchannels can occur if the transmitter () laser frequency is deviated from the nominal case. For Power Spectrum Density (db) st Channel nd Channel rd Channel NLI Relative Frequency (GHz) Fig. : Spectrum example of superchannel transmission in presence of laser frequency drift ( f =., f =.). Blue solid line: nominal spectrum, pin dashed line: deviated spectrum due to frequency drift, blac-shaded area: possible ICI, red-shaded area: NLI computed by GN model. simplicity, we assume that the laser frequency is randomly drifted by following the Gaussian distribution with a standard deviation of f B. As shown in Fig., nonlinear interference (NLI) caused by Kerr fiber nonlinearity also deviates according to spectrum. Here, the NLI spectrum is calculated by the Gaussian noise (GN) model. Since the NLI can be non-identical for different subchannels, rate adaptation and/or power control have been studied to improve performance. Without such rate/power controls, the achievable rate of the conventional coding scheme can be constrained by the worst subchannel as follows: apple R conv = N ch min C ICI, + Pi= i,, () where C(x) = log (+x), is the signal-to-noise ratio at the -th subchannel, and i, corresponds to a power fraction from the i-th subchannel to the -th receiver () subchannel, defined as i, = R Grrc (f R Grrc (f f tx i )H cd(f)g rrc (f f rx ) df f nom )H cd (f)g rrc (f f nom ) df, where G rrc (f) and H cd (f) denote transfer func-
4 tions of the RRC filter and chromatic dispersion, respectively. Here, f tx, f rx nom, and f are carrier frequencies for the laser, laser, and nominal case, respectively, at the -th subchannel. Because frequency drifts occur at both and lasers (i.e., f tx = f rx with high probability), the desired signal power can be also deviated as, <. The ICI from the i-th subchannel to the -th subchannel can appear when the and filters overlap each other as i, > for i =. Han Kobayashi (HK) superchannel coding To deal with ICI caused by the laser frequency drift, we consider superchannel optical transmission systems employing the HK coding scheme, as shown in Fig.. The HK scheme splits data at each subchannel into two portions; one is private data u n for only the intended, and the other data w n is public for all s. These two data are superimposed with a certain power splitting ratio n. At each subchannel, all public data are jointly decoded, and intended private data is decoded after ICI cancellation. Unintended public data (i.e., w i for i = n at the n-th subchannel) are discarded in the end. By controlling the power splitting ratio n, the HK scheme can achieve joint decoding gain for public data while mitigating ICI for private data. The achievable sum rate is expressed as follows: R HK = X C apple +min C, + Pi= i i, X i i min C j j j i,, X C j j, + C X i=j j, i, i, where = and = /( + Pi i i,). The first term of R HK comes from the private data u n after ICI cancellation, and the reminder corresponds to joint decoding of public data w n. System parameters We assume B = Gbaud per channel and RRC filter with a rolloff factor of =.. The normalized channel spacing f is chosen from. apple f apple.. We use the GN model to calculate NLI power spectrum after N s = spans of standard single-mode fiber (SSMF), whose span length is m, dispersion parameter is. ps/nm/m, fiber loss is. db/m, and nonlinear coefficient is. /W/m. Amplified spontaneous emission noise is calculated, assuming that Erbium-doped fiber, u λ λ u λ λ u λ λ Ch. Ch. Ch. MUX SSMF EDFA x N s DEMUX Ch. Ch. Ch. Fig. : Superchannel optical communications with Han Kobayashi coding for ICI management. HK Conv Normalized Channel Spacing Fig. : Nominal spectral efficiency as a function of normalized channel spacing f with no laser frequency drift. amplifier (EDFA) with a noise figure of db compensates for every span loss. The theoretical analysis is carried out by calculating NLI according to randomly deviated laser frequencies. The achievable sum rate is normalized by a nominal superchannel bandwidth of B(+ + f(n ch )). Performance results Fig. shows the achievable rate as a function of channel spacing f, for the nominal case without frequency drifts. It is shown that the spectral efficiency is maximized at a quasi-nyquist spacing of f =.. Although the HK coding can compensate for ICI at sub-nyquist spacings of f<, the achievable rate cannot be higher than the zero-ici cases. However, the quasi-nyquist spacing may be susceptible to laser frequency drifts. In fact, the laser frequency can drift by a few GHz due to aging and other effects if no frequency stabilizer other than temperature controller is used. Fig. shows the outage probability of achievable rates at a channel spacing of f =. in the presence of laser frequency drifts with a standard deviation of f =,,.%. We can see that the achievable rate is significantly degraded as the standard deviation f increases. Fig. shows the achievable rate as a function of launch power for f =. and f = %. For achieving an outage probability belo%, the HK coding is advantageous to compensate for the loss caused by laser u u u
5 Outage Probability HK %-drift HK %-drift HK.%-drift Conv %-drift Conv %-drift Conv.%-drift Fig. : Outage probability of achievable rate in presence of laser frequency drift ( f =., f =.,.,.). HK %-outage HK %-outage Conv %-outage Conv %-outage - - Launch Power Per Channel (dbm) Fig. : Achievable rate as a function of launch power in presence of laser frequency drift ( f =., f =.). frequency drifts even for quasi-nyquist spacings. Note that practical systems require more stringent outage probability belo. It is expected from Fig. that the gain of the HK coding can be higher for lower outage probabilities. Figs. and show the achievable rates for % outage as a function of laser frequency deviation f and normalized channel spacing f, respectively. The conventional scheme at a quasi- Nyquist spacing of f > showed considerable rate degradation for a frequency deviation above f >.%. Note that the HK coding at a sub- Nyquist spacing of f =. can outperform the low-density spacing cases at f>in the presence of a large laser frequency drift of f = %. Conclusions We analyzed the impact of laser frequency drift on the achievable rate for superchannel optical communications. It was shown that the HK coding scheme can provide improved robustness against ICI caused by the laser frequency drift, achieving -times higher rate than conventional scheme. In addition, sub-nyquist % spacing can maintain b/s/hz/pol spectral efficiency, and outperform quasi-nyquist systems at a % standard deviation of laser frequency. Such high robustness HK %-spacing HK %-spacing Conv %-spacing Conv %-spacing Normalized Standard Deviation of Laser Drift Fig. : Achievable rate for % outage as a function of laser frequency deviation f ( f =.,.). HK %-drift HK %-drift HK %-drift Conv %-drift Conv %-drift Conv %-drift Normalized Channel Spacing Fig. : Achievable rate for % outage as a function of normalized channel spacing f ( f =.,.,.). to the drift may reduce the complexity and power consumption for laser frequency stabilization. References [] J. Li et al.,. Tb/s ( Gb/s) DP-QAM superchannel transmission over m EDFA-only SSMF and two GHz WSSs, ECOC, Th..C. (). [] J.H. Ke, Y. Gao, J.C. Cartledge, Gbit/s single-carrier and Tbit/s three-carrier superchannel signals using dual polarization -QAM with loo-up table correction and optical pulse shaping, Optics Express, (). [] X. Liu et al.,.-tb/s guard-banded superchannel transmission over -m (-m) ULAF using - Gbaud pilot-free OFDM-QAM signals with.-b/s/hz net spectral efficiency, ECOC, Th..C. (). [] O. Vassilieva et al., Systematic analysis of intrasuperchannel nonlinear crosstal in flexible grid networs, ECOC, Mo... (). [] K. Kojima et al., Maximizing transmission capacity of superchannels using rate-adaptive FEC, ECOC, P.. (). [] T. Koie-Aino et al., Han Kobayashi and dirtypaper coding for superchannel optical communications, IEEE/OSA JLT, (). [] P. Poggiolini, The GN model of non-linear propagation in uncompensated coherent optical systems, IEEE/OSA JLT,, ().
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