SSBI counteraction technology in a single photodetector-based direct detection system receiving an independent dual-single sideband signal

To further meet the large capacity, high spectrum efficiency (SE), reduce the signal-signal beat interference (SSBI) of the independent dual single sideband (ISB) system and the complexity of the receiver, we propose an iterative signal-signal beat interference counteraction (ISSBIC) algorithm to su...

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Veröffentlicht in:	Optics express 2024-11, Vol.32 (23), p.41665
Hauptverfasser:	Hu, Zheng, Xiao, Jiangnan, Chen, Yilin, Zhao, Jiabao, Li, Feihan, Zhu, Hangzhi
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Sprache:	eng
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creator	Hu, Zheng Xiao, Jiangnan Chen, Yilin Zhao, Jiabao Li, Feihan Zhu, Hangzhi
description	To further meet the large capacity, high spectrum efficiency (SE), reduce the signal-signal beat interference (SSBI) of the independent dual single sideband (ISB) system and the complexity of the receiver, we propose an iterative signal-signal beat interference counteraction (ISSBIC) algorithm to suppress SSBI. The 16-Gbps left sideband and the 16-Gbps right sideband signals in the ISB system are quadrature phase-shift keying (QPSK) modulated. After standard single-mode fiber (SSMF) transmission, the LSB and RSB signals are synthesized to a 16-quadrature amplitude modulation (QAM) signal after conversion through the photodetector (PD) square law. The simulation results show that the ISSBIC with just 2 iterations is superior to Kramers-Kronig (KK) receiver in processing the system error bit. In the meantime, the ISSBIC requires a sampling rate of 20GSa/s, whereas KK requires 40GSa/s. Moreover, the proposed ISSBIC algorithm has a simpler complexity. According to the simulation results, the suggested ISSBIC receiver can lower the ADC requirements and system costs, which opens up a wide range of applications in multiplex and higher SE transmission systems.
doi_str_mv	10.1364/OE.538293
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title	SSBI counteraction technology in a single photodetector-based direct detection system receiving an independent dual-single sideband signal
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