Timing Jitter Analysis and Mitigation in Hybrid OFDM-DFMA PONs

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Timing Jitter Analysis and Mitigation in Hybrid OFDM-DFMA PONs. / Giddings, Roger; Gonem, Omaro; Tang, Jianming.
Yn: IEEE Photonics Journal, Cyfrol 13, Rhif 6, 7200313, 12.2021.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Giddings R, Gonem O, Tang J. Timing Jitter Analysis and Mitigation in Hybrid OFDM-DFMA PONs. IEEE Photonics Journal. 2021 Rhag;13(6):7200313. Epub 2021 Hyd 19. doi: 10.1109/JPHOT.2021.3121168

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TY - JOUR

T1 - Timing Jitter Analysis and Mitigation in Hybrid OFDM-DFMA PONs

AU - Giddings, Roger

AU - Gonem, Omaro

AU - Tang, Jianming

PY - 2021/12

Y1 - 2021/12

N2 - Hybrid orthogonal frequency division multiplexing-digital filter multiple access passive optical networks (OFDM-DFMA PONs) offer a cost-effective solution to the challenging requirements of next-generation optical access networks and 5G and beyond radio access networks. It is crucial to consider the impact of timing jitter in any ADC/DAC-based system, therefore this paper presents an in-depth investigation into the impacts of DAC/ADC timing jitter on the hybrid OFDM-DFMA PON’s performance. We introduce improved accuracy white and coloured, DAC and ADC timing jitter models, applicable to any DSP-based transmission system. We prove that DAC and ADC timing jitter effects are virtually identical and investigate the effects of white/coloured timing jitter on upstream performance in hybrid OFDM-DFMA PONs and determine the associated jitter-induced optical power penalties. To mitigate against the timing jitter-induced performance degradations, a simple, but highly effective DSP-based technique is implemented which increases robustness against the timing jitter effects and significantly reduces timing jitter-induced optical power penalties. This consequently relaxes DAC/ADC sampling clock jitter requirements and so reduces implementation costs. White (coloured) timing jitter effects are shown to be independent of (dependent on) ONU operating frequency band and a trade-off between DAC and ADC jitter levels can be exploited to reduce ONU costs.

AB - Hybrid orthogonal frequency division multiplexing-digital filter multiple access passive optical networks (OFDM-DFMA PONs) offer a cost-effective solution to the challenging requirements of next-generation optical access networks and 5G and beyond radio access networks. It is crucial to consider the impact of timing jitter in any ADC/DAC-based system, therefore this paper presents an in-depth investigation into the impacts of DAC/ADC timing jitter on the hybrid OFDM-DFMA PON’s performance. We introduce improved accuracy white and coloured, DAC and ADC timing jitter models, applicable to any DSP-based transmission system. We prove that DAC and ADC timing jitter effects are virtually identical and investigate the effects of white/coloured timing jitter on upstream performance in hybrid OFDM-DFMA PONs and determine the associated jitter-induced optical power penalties. To mitigate against the timing jitter-induced performance degradations, a simple, but highly effective DSP-based technique is implemented which increases robustness against the timing jitter effects and significantly reduces timing jitter-induced optical power penalties. This consequently relaxes DAC/ADC sampling clock jitter requirements and so reduces implementation costs. White (coloured) timing jitter effects are shown to be independent of (dependent on) ONU operating frequency band and a trade-off between DAC and ADC jitter levels can be exploited to reduce ONU costs.

KW - 5G, analogue-digital conversion, digital-analogue conversion, digital filter multiple access, digital signal processing (DSP), orthogonal frequency division multiplexing (OFDM), passive optical networks (PONs), timing jitter

U2 - 10.1109/JPHOT.2021.3121168

DO - 10.1109/JPHOT.2021.3121168

M3 - Article

VL - 13

JO - IEEE Photonics Journal

JF - IEEE Photonics Journal

SN - 1943-0655

IS - 6

M1 - 7200313

ER -