Experimental Demonstration of 38 Gbps Over 2.5 m OWC Systems With Eye-Safe 850 nm SM-VCSELs

Osahon, Isaac N. O.; Rajbhandari, Sujan; Kostakis, Ioannis; Ihsan, Asim; Powell, Denise; Meredith, Wyn; Missous, Mohamed; Haas, Harald; Tang, Jianming

doi:10.1109/lpt.2023.3337943

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2024

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Cited by 3 publications

References 13 publications

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Al-Sallami,

Rajbhandari,

Ata

2024

Handbook of Radio and Optical Networks Convergence

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FSO Basics

Al-Sallami,

Rajbhandari,

Ata

2024

Handbook of Radio and Optical Networks Convergence

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FSO Basics

Al-Sallami,

Rajbhandari,

Ata

2024

Handbook of Radio and Optical Networks Convergence

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Neural Network Equalisation for High-Speed Eye-Safe Optical Wireless Communication with 850 nm SM-VCSELs

Osahon,

Kostakis,

Powell

et al. 2024

Photonics

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In this paper, we experimentally illustrate the effectiveness of neural networks (NNs) as non-linear equalisers for multilevel pulse amplitude modulation (PAM-M) transmission over an optical wireless communication (OWC) link. In our study, we compare the bit-error-rate (BER) performances of two decision feedback equalisers (DFEs)—a multilayer-perceptron-based DFE (MLPDFE), which is the NN equaliser, and a transversal DFE (TRDFE)—under two degrees of non-linear distortion using an eye-safe 850 nm single-mode vertical-cavity surface-emitting laser (SM-VCSEL). Our results consistently show that the MLPDFE delivers superior performance in comparison to the TRDFE, particularly in scenarios involving high non-linear distortion and PAM constellations with eight or more levels. At a forward error correction (FEC) threshold BER of 0.0038, we achieve bit rates of ~28 Gbps, ~29 Gbps, ~22.5 Gbps, and ~5 Gbps using PAM schemes with 2, 4, 8, and 16 levels, respectively, with the MLPDFE. Comparably, the TRDFE yields bit rates of ~28 Gbps and ~29 Gbps with PAM-2 and PAM-4, respectively. Higher PAM levels with the TRDFE result in BERs greater than 0.0038 for bit rates above 2 Gbps. These results highlight the effectiveness of the MLPDFE in optimising the performance of SM-VCSEL-based OWC systems across different modulation schemes and non-linear distortion levels.

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Experimental Demonstration of 38 Gbps Over 2.5 m OWC Systems With Eye-Safe 850 nm SM-VCSELs

Cited by 3 publications

References 13 publications

FSO Basics

FSO Basics

FSO Basics

Neural Network Equalisation for High-Speed Eye-Safe Optical Wireless Communication with 850 nm SM-VCSELs

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