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Adaptive equalization of transmitter and receiver IQ skew by multi-layer linear and widely linear filters with deep unfolding

Manabu Arikawa, Kazunori Hayashi

2020Optics Express28 citationsDOIOpen Access PDF

Abstract

We propose a multi-layer cascaded filter architecture consisting of differently sized strictly linear (SL) and widely linear (WL) filters to compensate for the relevant linear impairments in optical fiber communications including in-phase/quadrature (IQ) skew in both transmitter and receiver by using deep unfolding. To control the filter coefficients adaptively, we adopt a gradient calculation with back propagation from machine learning with neural networks to minimize the magnitude of deviation of the filter outputs of the last layer from the desired state in a stochastic gradient descent (SGD) manner. We derive a filter coefficient update algorithm for multi-layer SL and WL multi-input multi-output finite-impulse response filters. The results of a transmission experiment on 32-Gbaud polarization-division multiplexed 64-quadrature amplitude modulation over a 100-km single-mode fiber span showed that the proposed multi-layer SL and WL filters with SGD control could compensate for IQ skew in both transmitter and receiver under the accumulation of chromatic dispersion, polarization rotation, and frequency offset of a local oscillator laser source.

Topics & Concepts

Linear filterTransmitterOpticsSkewFeed forwardFinite impulse responseLinear phaseComputer sciencePhysicsControl theory (sociology)Filter (signal processing)AlgorithmTelecommunicationsArtificial intelligenceEngineeringControl (management)Channel (broadcasting)Control engineeringComputer visionOptical Network TechnologiesAdvanced Photonic Communication SystemsPhotonic and Optical Devices
Adaptive equalization of transmitter and receiver IQ skew by multi-layer linear and widely linear filters with deep unfolding | Litcius