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Probabilistic Amplitude Shaping and Nonlinearity Tolerance: Analysis and Sequence Selection Method

Mohammad Taha Askari, Lutz Lampe, Jeebak Mitra

2023Journal of Lightwave Technology15 citationsDOI

Abstract

Probabilistic amplitude shaping (PAS) is a practical means to achieve a shaping gain in optical fiber communication. However, PAS and shaping in general also affect the signal-dependent generation of nonlinear interference. This provides an opportunity for nonlinearity mitigation through PAS, which is also referred to as a nonlinear shaping gain. In this paper, we introduce a linear lowpass filter model that relates transmitted symbol-energy sequences and nonlinear distortion experienced in an optical fiber channel. Based on this model, we conduct a nonlinearity analysis of PAS with respect to shaping blocklength and mapping strategy. Our model explains results and relationships found in literature and can be used as a design tool for PAS with improved nonlinearity tolerance. We use the model to introduce a new metric for PAS with sequence selection. We perform simulations of selection-based PAS with various amplitude shapers and mapping strategies to demonstrate the effectiveness of the new metric in different optical fiber system scenarios.

Topics & Concepts

Nonlinear systemNonlinear distortionMetric (unit)Probabilistic logicFilter (signal processing)Control theory (sociology)AmplitudeComputer scienceInterference (communication)Selection (genetic algorithm)Distortion (music)Electronic engineeringTelecommunicationsChannel (broadcasting)EngineeringPhysicsOpticsArtificial intelligenceBandwidth (computing)Operations managementComputer visionControl (management)Quantum mechanicsAmplifierOptical Network TechnologiesAdvanced Photonic Communication SystemsAdvanced Fiber Laser Technologies
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