Abstract
High launch optical power can compensate for severe fading and power loss in long-reach passive optical networks (LR-PONs); however, it also aggravates nonlinear degradation, which necessitates the use of complex DSP-based nonlinear compensation techniques at optical network users (ONUs). DSP-related techniques also necessitate the use of additional hardware/software components by the receiver, which can greatly increase implementation costs and energy consumption, particularly when dealing with large-scale ONU deployment. This is the first study to propose artificial neural network (ANN)-based pre-distortion to eliminate the need for complex DSP at ONUs in a high-launch-power LR-PON, thereby permitting the use of a simplified architecture at the user end. In the first phase of the study, the proposed ANN-based pre-distortion scheme was implemented in a single-channel IMDD OFDM LR-PON, which achieved a data rate of >55 Gbps over 60-km transmission with a loss budget of 30 dB without the need for optical inline- or pre-amplification. In the second phase of experiments, the same scheme was applied to a 4-channel wavelength division multiplexing (WDM) OFDM LR-PON. Here, the proposed scheme achieved data rates of >200 Gbps using launch power of 18 dBm per lane, resulting in a loss budget of roughly 29 dB over 60-km single mode fiber transmission.
Highlights
Explosive growth in internet traffic for big-data applications, mobile cloud computing, the Internet-of-Things, and services based on artificial intelligence is severely taxing the capacity of access networks
In the first phase of the study, the proposed artificial neural network (ANN)-based pre-distortion scheme was implemented in a single-channel intensity modulation and direct detection (IMDD) long-reach passive optical networks (LR-passive optical networks (PONs)), which achieved a data rate of >55 Gbps over a 60-km dispersion-uncompensated single-mode fiber (SMF) with a loss budget of 30 dB without the need for optical inline amplification or pre-amplification
Our experiment results demonstrated that the total capacity of 4-channel wavelength division multiplexing (WDM) LR-PON could exceed 200 Gbps over a distance of 60 km with a loss budget of 29 dB without the need for dispersion compensation, inline amplification, or nonlinear DSP compensation at optical network users (ONUs)
Summary
Explosive growth in internet traffic for big-data applications, mobile cloud computing, the Internet-of-Things, and services based on artificial intelligence is severely taxing the capacity of access networks. In the first phase of the study, the proposed ANN-based pre-distortion scheme was implemented in a single-channel IMDD LR-PON, which achieved a data rate of >55 Gbps over a 60-km dispersion-uncompensated single-mode fiber (SMF) with a loss budget of 30 dB without the need for optical inline amplification or pre-amplification.
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