Employing step-size randomization and multi-band quantization, we propose a reduced complexity time-domain (TD) digital backpropagation (DBP) and ...
[PDF] Efficient Time-Domain DBP using Random Step-Size and Multi-Band ...
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In this paper, we propose a novel TD-DBP approach based on multi-band quantization and step-size randomization ... with randomized step-size for more robust FIR ...
Abstract: Employing step-size randomization and multi-band quantization, we propose a reduced complexity time-domain (TD) digital backpropagation (DBP) and ...
Employing step-size randomization and multi-band quantization, we propose a reduced complexity time-domain (TD) digital backpropagation (DBP) and ...
Employing step-size randomization and multi-band quantization, we propose a reduced complexity time-domain (TD) digital backpropagation (DBP) and ...
Efficient Time-Domain DBP using Random Step-Size and Multi-Band Quantization. https://doi.org/10.1364/ofc.2018.w3a.5 · Full text. Journal: Optical Fiber ...
Bibtex for Paper Conference Efficient Time-Domain DBP using ...
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... Efficient Time-Domain DBP using Random Step-Size and Multi-Band Quantization}, year={2018}, month={March}, volume={}, pages={-} } Create and download bib file.
PDF | We propose and experimentally validate a low complexity time-domain (TD) digital backpropagation (DBP) algorithm for fiber nonlinearity.
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This work considers time-domain digital backpropagation with chromatic dispersion filters jointly optimized and quantized using machine-learning techniques ...
Jul 4, 2018 · [7] C. S. Martins et al., “Efficient time-domain DBP using random step- size and multi-band quantization,” in Proc. OFC, ...