Achievable Rates for Short-Reach Fiber-Optic Channels With Direct Detection

Daniel Plabst; Tobias Prinz; Thomas Wiegart; Talha Rahman; Nebojsa Stojanovic; Stefano Calabro; Norbert Hanik; Gerhard Kramer

doi:10.1109/JLT.2022.3149574

Achievable Rates for Short-Reach Fiber-Optic Channels With Direct Detection

Daniel Plabst, Tobias Prinz, Thomas Wiegart, Talha Rahman, Nebojsa Stojanovic, Stefano Calabro, Norbert Hanik, Gerhard Kramer

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Spectrally efficient communication is studied for short-reach fiber-optic links with chromatic dispersion (CD) and receivers that employ direction-detection and oversampling. Achievable rates and symbol error probabilities are computed by using auxiliary channels that account for memory in the sampled symbol strings. Real-alphabet bipolar and complex-alphabet symmetric modulations are shown to achieve significant energy gains over classic intensity modulation. Moreover, frequency-domain raised-cosine (FD-RC) pulses outperform time-domain RC (TD-RC) pulses in terms of spectral efficiency for two scenarios. First, if one shares the spectrum with other users then inter-channel interference significantly reduces the TD-RC rates. Second, if there is a transmit filter to avoid interference then the detection complexity of FD-RC and TD-RC pulses is similar but FD-RC achieves higher rates.

Original language	English
Pages (from-to)	3602-3613
Number of pages	12
Journal	Journal of Lightwave Technology
Volume	40
Issue number	12
DOIs	https://doi.org/10.1109/JLT.2022.3149574
State	Published - 15 Jun 2022

Keywords

Amplitude shift keying
capacity
direct detection
intensity modulation
quadrature amplitude modulation

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10.1109/JLT.2022.3149574

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title = "Achievable Rates for Short-Reach Fiber-Optic Channels With Direct Detection",

abstract = "Spectrally efficient communication is studied for short-reach fiber-optic links with chromatic dispersion (CD) and receivers that employ direction-detection and oversampling. Achievable rates and symbol error probabilities are computed by using auxiliary channels that account for memory in the sampled symbol strings. Real-alphabet bipolar and complex-alphabet symmetric modulations are shown to achieve significant energy gains over classic intensity modulation. Moreover, frequency-domain raised-cosine (FD-RC) pulses outperform time-domain RC (TD-RC) pulses in terms of spectral efficiency for two scenarios. First, if one shares the spectrum with other users then inter-channel interference significantly reduces the TD-RC rates. Second, if there is a transmit filter to avoid interference then the detection complexity of FD-RC and TD-RC pulses is similar but FD-RC achieves higher rates.",

keywords = "Amplitude shift keying, capacity, direct detection, intensity modulation, quadrature amplitude modulation",

author = "Daniel Plabst and Tobias Prinz and Thomas Wiegart and Talha Rahman and Nebojsa Stojanovic and Stefano Calabro and Norbert Hanik and Gerhard Kramer",

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AU - Plabst, Daniel

AU - Prinz, Tobias

AU - Wiegart, Thomas

AU - Rahman, Talha

AU - Stojanovic, Nebojsa

AU - Calabro, Stefano

AU - Hanik, Norbert

AU - Kramer, Gerhard

PY - 2022/6/15

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N2 - Spectrally efficient communication is studied for short-reach fiber-optic links with chromatic dispersion (CD) and receivers that employ direction-detection and oversampling. Achievable rates and symbol error probabilities are computed by using auxiliary channels that account for memory in the sampled symbol strings. Real-alphabet bipolar and complex-alphabet symmetric modulations are shown to achieve significant energy gains over classic intensity modulation. Moreover, frequency-domain raised-cosine (FD-RC) pulses outperform time-domain RC (TD-RC) pulses in terms of spectral efficiency for two scenarios. First, if one shares the spectrum with other users then inter-channel interference significantly reduces the TD-RC rates. Second, if there is a transmit filter to avoid interference then the detection complexity of FD-RC and TD-RC pulses is similar but FD-RC achieves higher rates.

AB - Spectrally efficient communication is studied for short-reach fiber-optic links with chromatic dispersion (CD) and receivers that employ direction-detection and oversampling. Achievable rates and symbol error probabilities are computed by using auxiliary channels that account for memory in the sampled symbol strings. Real-alphabet bipolar and complex-alphabet symmetric modulations are shown to achieve significant energy gains over classic intensity modulation. Moreover, frequency-domain raised-cosine (FD-RC) pulses outperform time-domain RC (TD-RC) pulses in terms of spectral efficiency for two scenarios. First, if one shares the spectrum with other users then inter-channel interference significantly reduces the TD-RC rates. Second, if there is a transmit filter to avoid interference then the detection complexity of FD-RC and TD-RC pulses is similar but FD-RC achieves higher rates.

KW - Amplitude shift keying

KW - capacity

KW - direct detection

KW - intensity modulation

KW - quadrature amplitude modulation

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Achievable Rates for Short-Reach Fiber-Optic Channels With Direct Detection

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Keywords

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