default search action
Erik Agrell
Person information
- affiliation: Chalmers University of Technology, Gothenburg, Sweden
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
- [j73]Yuxin Xu, Erik Agrell, Maïté Brandt-Pearce:
Physical-layer impairment estimation for random bandwidth traffic. J. Opt. Commun. Netw. 16(2): 104-111 (2024) - [j72]Chayan Bhar, Debayani Ghosh, Erik Agrell:
Resource-Efficient QoS-Aware Video Streaming Using UAV-Assisted Networks. IEEE Trans. Cogn. Commun. Netw. 10(2): 649-659 (2024) - [c98]Mohammad Farsi, Christian Häger, Magnus Karlsson, Erik Agrell:
Learning to Extract Distributed Polarization Sensing Data from Noisy Jones Matrices. OFC 2024: 1-3 - [c97]Tsuyoshi Yoshida, Isamu Kudo, Kenji Ishii, Hideo Yoshida, Hidenori Shimizu, Susumu Hirano, Yoshiaki Konishi, Magnus Karlsson, Erik Agrell:
High-Speed Multilevel Coded Modulation and Soft Performance Monitoring in Optical Communications. OFC 2024: 1-3 - [i64]Erik Agrell, Daniel Pook-Kolb, Bruce Allen:
Gradient-Based Optimization of Lattice Quantizers. CoRR abs/2401.01799 (2024) - [i63]Mohammad Farsi, Hamdi Joudeh, Gabriele Liga, Alex Alvarado, Magnus Karlsson, Erik Agrell:
On the Capacity of Correlated MIMO Phase-Noise Channels: An Electro-Optic Frequency Comb Example. CoRR abs/2405.05709 (2024) - 2023
- [j71]Daniel Pook-Kolb, Erik Agrell, Bruce Allen:
The Voronoi Region of the Barnes-Wall Lattice Λ16. IEEE J. Sel. Areas Inf. Theory 4: 16-23 (2023) - [j70]Erik Agrell, Bruce Allen:
On the Best Lattice Quantizers. IEEE Trans. Inf. Theory 69(12): 7650-7658 (2023) - [i62]Daniel Pook-Kolb, Erik Agrell, Bruce Allen:
The Voronoi Region of the Barnes-Wall Lattice Λ16. CoRR abs/2301.06092 (2023) - [i61]Shen Li, Ali Mirani, Magnus Karlsson, Erik Agrell:
Coded Modulation Schemes for Voronoi Constellations. CoRR abs/2308.00407 (2023) - [i60]Erik Agrell, Daniel Pook-Kolb, Bruce Allen:
Glued lattices are better quantizers than K12. CoRR abs/2312.00481 (2023) - 2022
- [j69]Christian Häger, Erik Agrell:
Data-Driven Estimation of Capacity Upper Bounds. IEEE Commun. Lett. 26(12): 2939-2943 (2022) - [j68]Kamran Keykhosravi, Ahad Hamednia, Houman Rastegarfar, Erik Agrell:
Data preprocessing for machine-learning-based adaptive data center transmission. ICT Express 8(1): 37-43 (2022) - [j67]Shen Li, Ali Mirani, Magnus Karlsson, Erik Agrell:
Low-Complexity Voronoi Shaping for the Gaussian Channel. IEEE Trans. Commun. 70(2): 865-873 (2022) - [j66]Mohammad Farsi, Magnus Karlsson, Erik Agrell:
Capacity Bounds Under Imperfect Polarization Tracking. IEEE Trans. Commun. 70(11): 7240-7249 (2022) - [j65]Faezeh Samimi Vajd, Mohammad Hadi, Chayan Bhar, Mohammad Reza Pakravan, Erik Agrell:
Dynamic Joint Functional Split and Resource Allocation Optimization in Elastic Optical Fronthaul. IEEE Trans. Netw. Serv. Manag. 19(4): 4505-4515 (2022) - [j64]Jinxiang Song, Christian Häger, Jochen Schröder, Timothy J. O'Shea, Erik Agrell, Henk Wymeersch:
Benchmarking and Interpreting End-to-End Learning of MIMO and Multi-User Communication. IEEE Trans. Wirel. Commun. 21(9): 7287-7298 (2022) - [i59]Erik Agrell, Bruce Allen:
On the best lattice quantizers. CoRR abs/2202.09605 (2022) - [i58]Jinxiang Song, Christian Häger, Jochen Schröder, Timothy J. O'Shea, Erik Agrell, Henk Wymeersch:
Benchmarking and Interpreting End-to-end Learning of MIMO and Multi-User Communication. CoRR abs/2203.07703 (2022) - [i57]Christian Häger, Erik Agrell:
Data-Driven Upper Bounds on Channel Capacity. CoRR abs/2205.06471 (2022) - [i56]Daniel Pook-Kolb, Bruce Allen, Erik Agrell:
Exact calculation of quantizer constants for arbitrary lattices. CoRR abs/2211.01987 (2022) - 2021
- [j63]Yuxin Xu, Erik Agrell, Maïté Brandt-Pearce:
Cross-layer static resource provisioning for dynamic traffic in flexible grid optical networks. JOCN 13(3): 1-13 (2021) - [j62]Chayan Bhar, Erik Agrell:
Energy- and Bandwidth-Efficient, QoS-Aware Edge Caching in Fog-Enhanced Radio Access Networks. IEEE J. Sel. Areas Commun. 39(9): 2762-2771 (2021) - [c96]Ali Mirani, Kovendhan Vijayan, Zonglong He, Shen Li, Erik Agrell, Jochen Schröder, Peter A. Andrekson, Magnus Karlsson:
Experimental Demonstration of 8-Dimensional Voronoi Constellations with 65, 536 and 16, 777, 216 Symbols. ECOC 2021: 1-4 - [c95]Shen Li, Ali Mirani, Magnus Karlsson, Erik Agrell:
Designing Voronoi Constellations to Minimize Bit Error Rate. ISIT 2021: 1017-1022 - [c94]Tsuyoshi Yoshida, Koji Igarashi, Yoshiaki Konishi, Magnus Karlsson, Erik Agrell:
FPGA Implementation of Hierarchical Subcarrier Rate and Distribution Matching for up to 1.032 Tb/s or 262144-QAM. OFC 2021: 1-3 - [i55]Tsuyoshi Yoshida, Koji Igarashi, Magnus Karlsson, Erik Agrell:
Compressed Shaping: Concept and FPGA Demonstration. CoRR abs/2102.03958 (2021) - [i54]Erik Agrell, Marco Secondini, Alex Alvarado, Tsuyoshi Yoshida:
Performance Prediction Recipes for Optical Links. CoRR abs/2102.10139 (2021) - [i53]Shen Li, Ali Mirani, Magnus Karlsson, Erik Agrell:
Low-complexity Voronoi shaping for the Gaussian channel. CoRR abs/2106.03262 (2021) - [i52]Mohammad Farsi, Magnus Karlsson, Erik Agrell:
Capacity Bounds under Imperfect Polarization Tracking. CoRR abs/2112.12661 (2021) - 2020
- [j61]Mohammad Hadi, Chayan Bhar, Erik Agrell:
General QoS-aware scheduling procedure for passive optical networks. JOCN 12(7): 217-226 (2020) - [j60]Kamran Keykhosravi, Erik Agrell, Marco Secondini, Magnus Karlsson:
When to Use Optical Amplification in Noncoherent Transmission: An Information-Theoretic Approach. IEEE Trans. Commun. 68(4): 2438-2445 (2020) - [c93]Ali Mirani, Erik Agrell, Magnus Karlsson:
Lattice-based geometric shaping. ECOC 2020: 1-4 - [c92]Vinícius Oliari, Erik Agrell, Alex Alvarado:
Logarithmic Perturbation Models in the Weak-Dispersion Regime with Applications to Passive Optical Networks. ECOC 2020: 1-4 - [c91]Tsuyoshi Yoshida, Koji Igarashi, Magnus Karlsson, Erik Agrell:
Sparse-Dense MLC for Peak Power Constrained Channels. ECOC 2020: 1-4 - [c90]Tsuyoshi Yoshida, Koji Igarashi, Masashi Binkai, Shun Chikamori, Mikael Mazur, Jochen Schröder, Keisuke Matsuda, Shota Koshikawa, Naoki Suzuki, Magnus Karlsson, Erik Agrell:
Required and Received SNRs in Coded Modulation. ECOC 2020: 1-4 - [c89]Kadir Gümüs, Alex Alvarado, Bin Chen, Christian Häger, Erik Agrell:
End-to-End Learning of Geometrical Shaping Maximizing Generalized Mutual Information. OFC 2020: 1-3 - [c88]Shen Li, Magnus Karlsson, Erik Agrell:
Improved Simulation Accuracy of the Split-Step Fourier Method. OFC 2020: 1-3 - [c87]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Multilevel Coding with Flexible Probabilistic Shaping for Rate-Adaptive and Low-Power Optical Communications. OFC 2020: 1-3 - [c86]Tsuyoshi Yoshida, Mikael Mazur, Jochen Schröder, Magnus Karlsson, Erik Agrell:
On the Performance under Hard and Soft Bitwise Mismatched-Decoding. OFC 2020: 1-3 - [c85]Mohammad Hadi, Erik Agrell:
Iterative Configuration in Elastic Optical Networks : (Invited Paper). ONDM 2020: 1-3 - [i51]Tsuyoshi Yoshida, Mikael Mazur, Jochen Schröder, Magnus Karlsson, Erik Agrell:
On the Performance under Hard and Soft Bitwise Mismatched-Decoding. CoRR abs/2002.00560 (2020)
2010 – 2019
- 2019
- [j59]Kamran Keykhosravi, Giuseppe Durisi, Erik Agrell:
Accuracy Assessment of Nondispersive Optical Perturbative Models through Capacity Analysis. Entropy 21(8): 760 (2019) - [j58]Yuxin Xu, Li Yan, Erik Agrell, Maïté Brandt-Pearce:
Iterative Resource Allocation Algorithm for EONs Based on a Linearized GN Model. JOCN 11(3): 39-51 (2019) - [j57]Mohammad Hadi, Mohammad Reza Pakravan, Erik Agrell:
Dynamic Resource Allocation in Metro Elastic Optical Networks Using Lyapunov Drift Optimization. JOCN 11(6): 250-259 (2019) - [j56]Chayan Bhar, Erik Agrell, Kamran Keykhosravi, Magnus Karlsson, Peter A. Andrekson:
Channel allocation in elastic optical networks using traveling salesman problem algorithms. JOCN 11(10): C58-C66 (2019) - [j55]Mohammad Hadi, Erik Agrell:
Joint power-efficient traffic shaping and service provisioning for metro elastic optical networks. JOCN 11(12): 578-587 (2019) - [j54]Arni Alfredsson, Erik Agrell, Henk Wymeersch:
Iterative Detection and Phase-Noise Compensation for Coded Multichannel Optical Transmission. IEEE Trans. Commun. 67(8): 5532-5543 (2019) - [c84]Vinícius Oliari, Erik Agrell, Alex Alvarado:
Regular perturbation for the weak-dispersion regime. ICTON 2019: 1-4 - [c83]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Joint Source-Channel Coding via Compressed Distribution Matching in Fiber-Optic Communications. OFC 2019: 1-3 - [i50]Tsuyoshi Yoshida, Alex Alvarado, Magnus Karlsson, Erik Agrell:
Post-FEC BER Prediction for Bit-Interleaved Coded Modulation with Probabilistic Shaping. CoRR abs/1911.01585 (2019) - [i49]Tsuyoshi Yoshida, Mikael Mazur, Jochen Schröder, Magnus Karlsson, Erik Agrell:
Performance Monitoring for Live Systems with Soft FEC and Multilevel Modulation. CoRR abs/1911.08641 (2019) - [i48]Kadir Gümüs, Alex Alvarado, Bin Chen, Christian Häger, Erik Agrell:
End-to-End Learning of Geometrical Shaping Maximizing Generalized Mutual Information. CoRR abs/1912.05638 (2019) - 2018
- [j53]Kamran Keykhosravi, Houman Rastegarfar, Erik Agrell:
Multicast Scheduling of Wavelength-Tunable, Multiqueue Optical Data Center Switches. JOCN 10(4): 353-364 (2018) - [j52]Li Yan, Matteo Fiorani, Ajmal Muhammad, Massimo Tornatore, Erik Agrell, Lena Wosinska:
Network Performance Trade-Off in Modular Data Centers With Optical Spatial Division Multiplexing. JOCN 10(9): 796-808 (2018) - [j51]Li Yan, Yuxin Xu, Maïté Brandt-Pearce, Nishan Dharmaweera, Erik Agrell:
Robust Regenerator Allocation in Nonlinear Flexible-Grid Optical Networks With Time-Varying Data Rates. JOCN 10(11): 823-831 (2018) - [j50]Erik Agrell, Balázs Csébfalvi:
Multidimensional Sampling of Isotropically Bandlimited Signals. IEEE Signal Process. Lett. 25(3): 383-387 (2018) - [j49]Kamran Keykhosravi, Morteza Tavana, Erik Agrell, Giuseppe Durisi:
Demodulation and Detection Schemes for a Memoryless Optical WDM Channel. IEEE Trans. Commun. 66(7): 2994-3005 (2018) - [j48]Alex Alvarado, Erik Agrell, Fredrik Brannstrom:
Asymptotic Comparison of ML and MAP Detectors for Multidimensional Constellations. IEEE Trans. Inf. Theory 64(2): 1231-1240 (2018) - [c82]Morteza Tavana, Kamran Keykhosravi, Vahid Aref, Erik Agrell:
A Low-Complexity Near-Optimal Detector for Multispan Zero-Dispersion Fiber-Optic Channels. ECOC 2018: 1-3 - [c81]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Technologies Toward Implementation of Probabilistic Constellation Shaping. ECOC 2018: 1-3 - [c80]Georg Rademacher, Ruben S. Luis, Benjamin J. Puttnam, Tobias A. Eriksson, Erik Agrell, Ryo Maruyama, Kazuhiko Aikawa, Hideaki Furukawa, Yoshinari Awaji, Naoya Wada:
159 Tbit/s C+L Band Transmission over 1045 km 3-Mode Graded-Index Few-Mode Fiber. OFC 2018: 1-3 - [c79]Houman Rastegarfar, Kamran Keykhosravi, Erik Agrell, Nasser Peyghambarian:
Wavelength Reuse for Scalable Multicasting: A Cross-Layer Perspective. OFC 2018: 1-3 - [c78]Li Yan, Yuxin Xu, Maïté Brandt-Pearce, Nishan Dharmaweera, Erik Agrell:
Regenerator Allocation in Nonlinear Elastic Optical Networks With Random Data Rates. OFC 2018: 1-3 - [c77]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Efficient Offline Evaluation of FEC Codes Based on Captured Data with Probabilistic Shaping. OFC 2018: 1-3 - [c76]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Low-Complexity Variable-Length Output Distribution Matching with Periodical Distribution Uniformalization. OFC 2018: 1-3 - [c75]Kamran Keykhosravi, Houman Rastegarfar, Erik Agrell:
Scalable Interconnection Scheme for Data Center Multicast Applications. PSC 2018: 1-3 - [i47]Arni Alfredsson, Erik Agrell, Henk Wymeersch:
Iterative Decoding and Phase-Noise Compensation for Multichannel Optical Transmission. CoRR abs/1804.02263 (2018) - [i46]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Hierarchical Distribution Matching for Probabilistically Shaped Coded Modulation. CoRR abs/1809.01653 (2018) - [i45]Kamran Keykhosravi, Houman Rastegarfar, Nasser Peyghambarian, Erik Agrell:
Exploiting AWG Free Spectral Range Periodicity in Distributed Multicast Architectures. CoRR abs/1810.00197 (2018) - [i44]Marco Secondini, Erik Agrell, Enrico Forestieri, Domenico Marsella, Menelaos Ralli Camara:
Nonlinearity Mitigation in WDM Systems: Models, Strategies, and Achievable Rates. CoRR abs/1811.08942 (2018) - [i43]Kamran Keykhosravi, Marco Secondini, Giuseppe Durisi, Erik Agrell:
How to Increase the Achievable Information Rate by Per-Channel Dispersion Compensation. CoRR abs/1812.03556 (2018) - 2017
- [c74]Erik Agrell:
Capacity Bounds in Optical Communications. ECOC 2017: 1-3 - [c73]Arni F. Alfredsson, Erik Agrell, Henk Wymeersch, Magnus Karlsson:
Pilot Distributions for Phase Tracking in Space-Division Multiplexed Systems. ECOC 2017: 1-3 - [c72]Kamran Keykhosravi, Giuseppe Durisi, Erik Agrell:
A Tighter Upper Bound on the Capacity of the Nondispersive Optical Fiber Channel. ECOC 2017: 1-3 - [c71]Yang Lu, Erik Agrell, Xiaodan Pang, Oskars Ozolins, Xuezhi Hong, Rui Lin, Yuxin Cheng, Aleksejs Udalcovs, Sergei Popov, Gunnar Jacobsen, Jiajia Chen:
Matrix Receiving Scheme Supporting Arbitrary Multiple-Wavelength Reception for Optical Interconnects. ECOC 2017: 1-3 - [c70]Marco Secondini, Erik Agrell, Enrico Forestieri, Domenico Marsella:
Fiber Nonlinearity Mitigation in WDM Systems: Strategies and Achievable Rates. ECOC 2017: 1-3 - [c69]Li Yan, Yuxin Xu, Maïté Brandt-Pearce, Nishan Dharmaweera, Erik Agrell:
Regenerator Site Predeployment in Nonlinear Dynamic Flexible-Grid Networks. ECOC 2017: 1-3 - [c68]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Short-Block-Length Shaping by Simple Mark Ratio Controllers for Granular and Wide-Range Spectral Efficiencies. ECOC 2017: 1-3 - [c67]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Post-FEC BER Prediction Accuracy for Probabilistically Shaped Signaling in Fiber-Optic Communications. ECOC 2017: 1-3 - [c66]Kamran Keykhosravi, Houman Rastegarfar, Erik Agrell:
Multicast scheduling for optical data center switches with tunability constraints. ICNC 2017: 308-312 - [c65]Houman Rastegarfar, Kamran Keykhosravi, Krzysztof Szczerba, Erik Agrell, Lloyd LaComb, Madeleine Glick:
Optical circuit granularity impact in TCP-dominant hybrid data center networks. ICNC 2017: 318-322 - [c64]Li Yan, Erik Agrell:
Capacity scaling of flexible optical networks with nonlinear impairment. ICTON 2017: 1-4 - [c63]Kamran Keykhosravi, Erik Agrell:
A novel demodulation scheme for a memoryless optical interference channel. ISIT 2017: 66-70 - [c62]Arni F. Alfredsson, Erik Agrell, Henk Wymeersch, Magnus Karlsson:
Phase-noise compensation for spatial-division multiplexed transmission. OFC 2017: 1-3 - [c61]Cristian B. Czegledi, Magnus Karlsson, Pontus Johannisson, Erik Agrell:
Temporal stochastic channel model for absolute polarization state and polarization-mode dispersion. OFC 2017: 1-3 - [c60]Cristian B. Czegledi, Gabriele Liga, Domaniç Lavery, Magnus Karlsson, Erik Agrell, Seb J. Savory, Polina Bayvel:
Modified digital backpropagation accounting for polarization-mode dispersion. OFC 2017: 1-3 - [c59]Nishan Dharmaweera, Li Yan, Magnus Karlsson, Erik Agrell:
An impairment-aware resource allocation scheme for dynamic elastic optical networks. OFC 2017: 1-3 - [c58]Johnny Karout, René-Jean Essiambre, Erik Agrell, Antonia M. Tulino:
Achievable rates of multidimensional multisphere distributions. OFC 2017: 1-3 - [c57]Benjamin J. Puttnam, Ruben S. Luis, Georg Rademacher, Jun Sakaguchi, Werner Klaus, Yoshinari Awaji, Naoya Wada, Erik Agrell, J. Marciante, Bill P.-P. Kuo, Stojan Radic:
High-capacity MCF transmission with wideband comb. OFC 2017: 1-3 - [c56]Li Yan, Matteo Fiorani, Ajmal Muhammad, Massimo Tornatore, Erik Agrell, Lena Wosinska:
Network performance trade-off in optical spatial division multiplexing data centers. OFC 2017: 1-3 - [i42]Erik Agrell, Balázs Csébfalvi:
Multidimensional Sampling of Isotropically Bandlimited Signals. CoRR abs/1703.00471 (2017) - [i41]Tsuyoshi Yoshida, Magnus Karlsson, Erik Agrell:
Performance Metrics for Systems with Soft-Decision FEC and Probabilistic Shaping. CoRR abs/1705.03736 (2017) - [i40]Kamran Keykhosravi, Giuseppe Durisi, Erik Agrell:
Bounds on the Capacity of Memoryless Simplified Fiber-Optical Channel Models. CoRR abs/1708.03102 (2017) - [i39]Kamran Keykhosravi, Morteza Tavana, Erik Agrell, Giuseppe Durisi:
Demodulation and Detection Schemes for a Memoryless Optical WDM Channel. CoRR abs/1708.08320 (2017) - 2016
- [j47]Madushanka Nishan Dharmaweera, Juzi Zhao, Li Yan, Magnus Karlsson, Erik Agrell:
Traffic-Grooming- and Multipath-Routing-Enabled Impairment-Aware Elastic Optical Networks. JOCN 8(2): 58-70 (2016) - [j46]Fábio Correia, Artur Mariano, Alberto Proença, Christian H. Bischof, Erik Agrell:
Parallel Improved Schnorr-Euchner Enumeration SE++ on Shared and Distributed Memory Systems, With and Without Extreme Pruning. J. Wirel. Mob. Networks Ubiquitous Comput. Dependable Appl. 7(4): 1-19 (2016) - [j45]Mikhail Ivanov, Christian Häger, Fredrik Brannstrom, Alexandre Graell i Amat, Alex Alvarado, Erik Agrell:
On the Information Loss of the Max-Log Approximation in BICM Systems. IEEE Trans. Inf. Theory 62(6): 3011-3025 (2016) - [c55]Magnus Karlsson, Erik Agrell:
Multidimensional modulation and coding. OFC 2016: 1-3 - [c54]Nishan Dharmaweera, Li Yan, Juzi Zhao, Magnus Karlsson, Erik Agrell:
Regenerator site selection in impairment-aware elastic optical networks. OFC 2016: 1-3 - [c53]Tobias Fehenberger, Tobias A. Eriksson, Alex Alvarado, Magnus Karlsson, Erik Agrell, Norbert Hanik:
Improved achievable information rates by optimized four-dimensional demappers in optical transmission experiments. OFC 2016: 1-3 - [c52]Li Yan, Erik Agrell, Henk Wymeersch:
Sensitivity comparison of time domain hybrid modulation and rate adaptive coding. OFC 2016: 1-3 - [c51]Fábio Correia, Artur Mariano, Alberto Proença, Christian H. Bischof, Erik Agrell:
Parallel Improved Schnorr-Euchner Enumeration SE++ for the CVP and SVP. PDP 2016: 596-603 - [i38]Cristian B. Czegledi, Erik Agrell, Magnus Karlsson, Pontus Johannisson:
Modulation Format Independent Joint Polarization and Phase Tracking for Coherent Receivers. CoRR abs/1601.05927 (2016) - [i37]Johnny Karout, René-Jean Essiambre, Erik Agrell, Antonia M. Tulino:
Achievable Rates of Multidimensional Rotationally Invariant Distributions. CoRR abs/1604.04256 (2016) - [i36]Gabriele Liga, Alex Alvarado, Erik Agrell, Polina Bayvel:
Information Rates of Next-Generation Long-Haul Optical Fiber Systems Using Coded Modulation. CoRR abs/1606.01689 (2016) - [i35]Naga VishnuKanth Irukulapati, Marco Secondini, Erik Agrell, Pontus Johannisson, Henk Wymeersch:
Tighter Lower Bounds on Mutual Information for Fiber-Optic Channels. CoRR abs/1606.09176 (2016) - [i34]Alex Alvarado, Erik Agrell, Fredrik Brännström:
Asymptotic Comparison of ML and MAP Detectors for Multidimensional Constellations. CoRR abs/1607.01818 (2016) - 2015
- [j44]Li Yan, Erik Agrell, Henk Wymeersch, Maïté Brandt-Pearce:
Resource Allocation for Flexible-Grid Optical Networks With Nonlinear Channel Model [Invited]. JOCN 7(11): B101-B108 (2015) - [j43]Erik Agrell:
Conditions for a Monotonic Channel Capacity. IEEE Trans. Commun. 63(3): 738-748 (2015) - [c50]Tobias A. Eriksson, Tobias Fehenberger, Norbert Hanik, Peter A. Andrekson, Magnus Karlsson, Erik Agrell:
Four-dimensional estimates of mutual information in coherent optical communication experiments. ECOC 2015: 1-3 - [c49]Gabriele Liga, Alex Alvarado, Erik Agrell, Marco Secondini, Robert I. Killey, Polina Bayvel:
Optimum detection in presence of nonlinear distortions with memory. ECOC 2015: 1-3 - [c48]Lars Lundberg, Pontus Johannisson, Erik Agrell, Magnus Karlsson, Peter A. Andrekson:
Power consumption of hybrid EDFA/Raman amplified systems. ECOC 2015: 1-3 - [c47]Benjamin J. Puttnam, Ruben S. Luís, Jose Manuel Delgado Mendinueta, Yoshinari Awaji, Naoya Wada, Erik Agrell:
Linear block-coding across >5 Tb/s PDM-64QAM spatial-super-channels in a 19-core fiber. ECOC 2015: 1-3 - [c46]Georg Rademacher, Benjamin J. Puttnam, Ruben S. Luís, Yoshinari Awaji, Naoya Wada, Erik Agrell, Klaus Petermann:
Experimental investigation of a 16-dimensional modulation format for long-haul multi-core fiber transmission. ECOC 2015: 1-3 - [c45]Li Yan, Juzi Zhao, Erik Agrell, Henk Wymeersch:
Power optimization in nonlinear flexible-grid optical networks. ECOC 2015: 1-3 - [c44]