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ORCIDVincent Lauinger
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2020 – today
- 2025
[c9]Vincent Lauinger, Lennart Schmitz, Patrick Matalla, Andrej Rode, Sebastian Randel, Laurent Schmalen:
Novel Phase-Noise-Tolerant Variational-Autoencoder-Based Equalization Suitable for Space-Division-Multiplexed Transmission. ECOC 2025: 1-4- [c8]H. Peng, Lennart Schmitz, Daniel Drayß, Y. Zheng, Vincent Lauinger, Benedikt Geiger, Y. Xu, D. Fang, Wolfgang Freude, Sebastian Randel, Kresten Yvind, Laurent Schmalen, Minhao Pu, Christian Koos:
400 GBd 32QAM Transmission Using RF-Synchronized Dark-Soliton Microcombs for Optical Arbitrary Waveform Generation (OAWG). ECOC 2025: 1-4 - [c7]Laurent Schmalen, Vincent Lauinger, Jonas Ney, Norbert Wehn, Patrick Matalla, Sebastian Randel, Alexander von Bank, Eike-Manuel Edelmann:
Recent Advances on Machine Learning-aided DSP for Short-reach and Long-haul Optical Communications. OFC 2025: 1-3 - [i9]Vincent Lauinger, Lennart Schmitz, Patrick Matalla, Andrej Rode, Sebastian Randel, Laurent Schmalen:
Novel Phase-Noise-Tolerant Variational-Autoencoder-Based Equalization Suitable for Space-Division-Multiplexed Transmission. CoRR abs/2509.14072 (2025) - 2024
- [c6]Vincent Lauinger, Patrick Matalla, Jonas Ney, Norbert Wehn, Sebastian Randel, Laurent Schmalen:
Fully-blind Neural Network Based Equalization for Severe Nonlinear Distortions in 112 Gbit/s Passive Optical Networks. OFC 2024: 1-3 - [i8]Vincent Lauinger, Patrick Matalla, Jonas Ney, Norbert Wehn, Sebastian Randel, Laurent Schmalen:
Fully-blind Neural Network Based Equalization for Severe Nonlinear Distortions in 112 Gbit/s Passive Optical Networks. CoRR abs/2401.09579 (2024) - [i7]Jonas Ney, Patrick Matalla, Vincent Lauinger, Laurent Schmalen, Sebastian Randel, Norbert Wehn:
Real-Time FPGA Demonstrator of ANN-Based Equalization for Optical Communications. CoRR abs/2402.15288 (2024) - [i6]Jonas Ney, Christoph Füllner, Vincent Lauinger, Laurent Schmalen, Sebastian Randel, Norbert Wehn:
CNN-Based Equalization for Communications: Achieving Gigabit Throughput with a Flexible FPGA Hardware Architecture. CoRR abs/2405.02323 (2024) - [i5]Laurent Schmalen, Vincent Lauinger, Jonas Ney, Norbert Wehn, Patrick Matalla, Sebastian Randel, Alexander von Bank, Eike-Manuel Edelmann:
Recent Advances on Machine Learning-aided DSP for Short-reach and Long-haul Optical Communications. CoRR abs/2411.10101 (2024) - 2023
- [c5]Jonas Ney, Vincent Lauinger
, Laurent Schmalen, Norbert Wehn:
Unsupervised ANN-Based Equalizer and Its Trainable FPGA Implementation. EuCNC/6G Summit 2023: 60-65 - [c4]Vincent Lauinger, Fred Buchali, Laurent Schmalen:
Improving the Bootstrap of Blind Equalizers with Variational Autoencoders. OFC 2023: 1-3 - [c3]Jonas Ney, Christoph Füllner, Vincent Lauinger, Laurent Schmalen, Sebastian Randel, Norbert Wehn:
From Algorithm to Implementation: Enabling High-Throughput CNN-Based Equalization on FPGA for Optical Communications. SAMOS 2023: 158-173 - [i4]Vincent Lauinger, Fred Buchali, Laurent Schmalen:
Improving the Bootstrap of Blind Equalizers with Variational Autoencoders. CoRR abs/2301.06576 (2023) - [i3]Jonas Ney, Vincent Lauinger, Laurent Schmalen, Norbert Wehn:
Unsupervised ANN-Based Equalizer and Its Trainable FPGA Implementation. CoRR abs/2304.06987 (2023) - 2022
- [j1]Vincent Lauinger, Fred Buchali, Laurent Schmalen:
Blind Equalization and Channel Estimation in Coherent Optical Communications Using Variational Autoencoders. IEEE J. Sel. Areas Commun. 40(9): 2529-2539 (2022) - [c2]Vincent Lauinger, Manuel Hoffmann, Jonas Ney, Norbert Wehn, Laurent Schmalen:
Blind and Channel-agnostic Equalization Using Adversarial Networks. GLOBECOM 2022: 585-590 - [i2]Vincent Lauinger, Fred Buchali, Laurent Schmalen:
Blind Equalization and Channel Estimation in Coherent Optical Communications Using Variational Autoencoders. CoRR abs/2204.11776 (2022) - [i1]Vincent Lauinger, Manuel Hoffmann, Jonas Ney, Norbert Wehn, Laurent Schmalen:
Blind and Channel-agnostic Equalization Using Adversarial Networks. CoRR abs/2209.07277 (2022) - 2020
- [c1]Fred Buchali, Vincent Lauinger, Mathieu Chagnon, Karsten Schuh, Vahid Aref:
1.1 Tb/s/λ at 9.8 Bit/s/Hz DWDM Transmission over DCI Distances Supported by CMOS DACs. OFC 2020: 1-3
Coauthor Index
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