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Hartmut Hafermann
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2020 – today
- 2024
- [c12]Tarek Eldahrawy, Abir Hraghi, Abel Lorences-Riesgo, Trung-Hien Nguyen, Iosif Demirtzioglou, Loig Godard, Hartmut Hafermann, Nayla El Dahdah, Yu Zhao, Yann Frignac, Gabriel Charlet:
Parameter Estimation of Semi-Conductor Optical Amplifier Booster based on Digital Signal Processing. OFC 2024: 1-3 - 2023
- [j4]Nathalie Morette
, Hartmut Hafermann
Machine learning enhancement of a digital twin for wavelength division multiplexing network performance prediction leveraging quality of transmission parameter refinement. J. Opt. Commun. Netw. 15(6): 333-343 (2023) - [c11]Hartmut Hafermann, Xiaohui Zhao, Shuqi Yu, Yann Frignac:
Preemphasis-Aware Semiconductor Optical Amplifier Model. OFC 2023: 1-3 - 2022
- [c10]Nathalie Morette, Ivan Fernandez de Jauregui Ruiz, Hartmut Hafermann, Yvan Pointurier:
On the Robustness of a ML-based Method for QoT Tool Parameter Refinement in Partially Loaded Networks. OFC 2022: 1-3 - 2021
- [c9]Sarah Kamel, Hartmut Hafermann, Dylan Le Gac, Ludovic Dos Santos, Balázs Kégl, Yann Frignac, Gabriel Charlet:
OSNR prediction for optical links via learned noise figures. ECOC 2021: 1-4 - 2020
- [j3]Carlo Condo
Practical Product Code Construction of Polar Codes. IEEE Trans. Signal Process. 68: 2004-2014 (2020) - [i12]Bin Chen
Analysis and Experimental Demonstration of Orthant-Symmetric Four-dimensional 7 bit/4D-sym Modulation for Optical Fiber Communication. CoRR abs/2003.12712 (2020)
2010 – 2019
- 2019
- [c8]Djalal F. Bendimerad, Huijian Zhang, Ingmar Land, Hartmut Hafermann:
Partially Ordered Statistics Demapping for Multi-Dimensional Modulation Formats. OFC 2019: 1-3 - [c7]Jan-Willem Goossens, Yves Jaouën, Hartmut Hafermann:
Experimental Demonstration of Data Transmission Based on the Exact Inverse Periodic Nonlinear Fourier Transform. OFC 2019: 1-3 - [c6]Sjoerd van der Heide, Bin Chen
11, 700 km Transmission at 4.8 bit/4D-sym via Four-dimensional Geometrically-shaped Polarization-Ring-Switching Modulation. OECC/PSC 2019: 1-3 - [i11]Bin Chen
Polarization-ring-switching for nonlinearity-tolerant geometrically-shaped four-dimensional formats maximizing generalized mutual information. CoRR abs/1901.06878 (2019) - [i10]Jan-Willem Goossens, Yves Jaouën, Hartmut Hafermann:
Experimental Demonstration of Data Transmission Based on the Exact Inverse Periodic Nonlinear Fourier Transform. CoRR abs/1904.12824 (2019) - [i9]Djalal F. Bendimerad, Huijian Zhang, Ingmar Land, Hartmut Hafermann:
Partially Ordered Statistics Demapping for Multi-Dimensional Modulation Formats. CoRR abs/1904.12828 (2019) - [i8]Carlo Condo, Valerio Bioglio, Hartmut Hafermann, Ingmar Land:
Practical Product Code Construction of Polar Codes. CoRR abs/1910.06803 (2019) - [i7]Jan-Willem Goossens, Hartmut Hafermann, Yves Jaouën:
Data Transmission based on Exact Inverse Periodic Nonlinear Fourier Transform, Part I: Theory. CoRR abs/1911.12614 (2019) - [i6]Jan-Willem Goossens, Hartmut Hafermann, Yves Jaouën:
Data Transmission based on Exact Inverse Periodic Nonlinear Fourier Transform, Part II: Waveform Design and Experiment. CoRR abs/1911.12615 (2019) - 2018
- [c5]Bin Chen
Increasing Achievable Information Rates via Geometric Shaping. ECOC 2018: 1-3 - [c4]Xi Yan, Raquel G. Machado, Kechao Huang, Frederic Gabry, Marc P. C. Fossorier, Hartmut Hafermann, Huijian Zhang, Ingmar Land, Raymond W. K. Leung:
Capacity Analysis of Delayed Bit Interleaved Coded Modulation. ISTC 2018: 1-5 - [c3]Djalal F. Bendimerad, Hartmut Hafermann, Huijian Zhang:
Nonlinearity-tolerant 8D Modulation Formats by Set-partitioning PDM-QPSK. OFC 2018: 1-3 - [i5]Bin Chen
Increasing Achievable Information Rates via Geometric Shaping. CoRR abs/1804.08850 (2018) - 2017
- [i4]Jan-Willem Goossens, Mansoor I. Yousefi, Yves Jaouën, Hartmut Hafermann:
Polarization-Division Multiplexing Based on the Nonlinear Fourier Transform. CoRR abs/1707.08589 (2017) - [i3]Djalal F. Bendimerad, Hartmut Hafermann, Huijian Zhang:
Nonlinearity-tolerant 8D modulation formats by set-partitioning PDM-QPSK. CoRR abs/1712.05141 (2017) - 2016
- [c2]Apostolos Karadimitrakis, Aris L. Moustakas, Hartmut Hafermann, Axel Müller:
Optical fiber MIMO channel model and its analysis. ISIT 2016: 2164-2168 - [c1]Raquel G. Machado, Beatrice Tomasi
Design of MLSD-based receivers for short-range optical communications using the Volterra expansion. SPAWC 2016: 1-6 - [i2]Apostolos Karadimitrakis, Aris L. Moustakas, Hartmut Hafermann, Axel Müller:
Optical Fiber MIMO Channel Model and its Analysis. CoRR abs/1604.02825 (2016) - [i1]Raquel G. Machado, Beatrice Tomasi, Hartmut Hafermann, Stefano Tomasin:
Design of MLSD-Based Receivers for Short-Range Optical Communications Using the Volterra Expansion. CoRR abs/1605.07943 (2016) - 2015
- [j2]Olivier Parcollet, Michel Ferrero
TRIQS: A toolbox for research on interacting quantum systems. Comput. Phys. Commun. 196: 398-415 (2015) - 2013
- [j1]Hartmut Hafermann, Philipp Werner, Emanuel Gull
Efficient implementation of the continuous-time hybridization expansion quantum impurity solver. Comput. Phys. Commun. 184(4): 1280-1286 (2013)
Coauthor Index
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