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11.2 Gbps 100-meter free-space visible light laser communication utilizing bidirectional reservoir computing equalizer

Zhilan Lü, Jifan Cai, Zengyi Xu, Yuning Zhou, Junwen Zhang, Chao Shen, Nan Chi

2023Optics Express23 citationsDOIOpen Access PDF

Abstract

In this paper, we introduce an innovative post-equalization technique leveraging bidirectional reservoir computing (BiRC), and apply it to waveform-to-symbol level equalization for visible light laser communication for the first time. This strategy is more resistant to nonlinearities compared to traditional equalizers like least mean square (LMS) equalizer, while requiring less training time and fewer parameters than neural network (NN) -based equalizers. Through this approach, we successfully conduct a 100-meter transmission of a 32-amplitude phase shift keying (32APSK) signal using a green laser operating at a wavelength of 520 nm. Remarkably, our system achieves a high data rate of 11.2 Gbps, all while maintaining a satisfying bit error rate (BER) below the 7% hard decision forward error correction (HD-FEC) threshold of 3.8E-3.

Topics & Concepts

Bit error rateComputer scienceVisible light communicationFree-space optical communicationEqualization (audio)Transmission (telecommunications)Phase-shift keyingWaveformAdaptive equalizerOpticsKeyingLaserPulse-amplitude modulationSIGNAL (programming language)Quadrature amplitude modulationElectronic engineeringTelecommunicationsPulse (music)PhysicsDecoding methodsLight-emitting diodeEngineeringDetectorRadarProgramming languageNeural Networks and Reservoir ComputingOptical Wireless Communication TechnologiesOptical Network Technologies
11.2 Gbps 100-meter free-space visible light laser communication utilizing bidirectional reservoir computing equalizer | Litcius