Journals
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NLP Powered Intent Based Network Management for Private 5G Networks
IEEE Access, 11, pp. 36642-36657, 2023, DOI: 10.1109/ACCESS.2023.3265894. (IF=3.9, Q2)
"NLP Powered Intent Based Network Management for Private 5G Networks", Joseph Mcnamara, Daniel Camps-Mur, Meysam Goodarzi, Hilary Frank, Lorena Chinchilla-Romero, Ferran Canellas, Adriana Fernandez-Fernandez, Shuangyi Yan, IEEE Access, 11, pp. 36642-36657, 2023. DOI: 10.1109/ACCESS.2023.3265894
close
@ARTICLE{10097683,
author={Mcnamara, Joseph and Camps-Mur, Daniel and Goodarzi, Meysam and Frank, Hilary and Chinchilla-Romero, Lorena and Canellas, Ferran and Fernandez-Fernandez, Adriana and Yan, Shuangyi},
journal={IEEE Access},
title={NLP Powered Intent Based Network Management for Private 5G Networks},
year={2023},
volume={11},
number={},
pages={36642-36657},
doi={10.1109/ACCESS.2023.3265894},
impact = {(IF=3.9, Q2)},
project = {5gclarity}}
close
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5G Infrastructure Network Slicing: E2E Mean Delay Model and Effectiveness Assessment to Reduce Downtimes in Industry 4.0
Sensors, 22 (1), 2022, DOI: 10.3390/s22010229. (IF=3.9, Q2)
"5G Infrastructure Network Slicing: E2E Mean Delay Model and Effectiveness Assessment to Reduce Downtimes in Industry 4.0", Lorena Chinchilla-Romero, Jonathan Prados-Garzon, Pablo Ameigeiras, Pablo Munoz, Juan M. Lopez-Soler, Sensors, 22 (1), 2022. DOI: 10.3390/s22010229
close
Fifth Generation (5G) is expected to meet stringent performance network requisites of the Industry 4.0. Moreover, its built-in network slicing capabilities allow for the support of the traffic heterogeneity in Industry 4.0 over the same physical network infrastructure. However, 5G network slicing capabilities might not be enough in terms of degree of isolation for many private 5G networks use cases, such as multi-tenancy in Industry 4.0. In this vein, infrastructure network slicing, which refers to the use of dedicated and well isolated resources for each network slice at every network domain, fits the necessities of those use cases. In this article, we evaluate the effectiveness of infrastructure slicing to provide isolation among production lines (PLs) in an industrial private 5G network. To that end, we develop a queuing theory-based model to estimate the end-to-end (E2E) mean packet delay of the infrastructure slices. Then, we use this model to compare the E2E mean delay for two configurations, i.e., dedicated infrastructure slices with segregated resources for each PL against the use of a single shared infrastructure slice to serve the performance-sensitive traffic from PLs. Also we evaluate the use of Time-Sensitive Networking (TSN) against bare Ethernet to provide layer 2 connectivity among the 5G system components. We use a complete and realistic setup based on experimental and simulation data of the scenario considered. Our results support the effectiveness of infrastructure slicing to provide isolation in performance among the different slices. Then, using dedicated slices with segregated resources for each PL might reduce the number of the production downtimes and associated costs as the malfunctioning of a PL will not affect the network performance perceived by the performance-sensitive traffic from other PLs. Last, our results show that, besides the improvement in performance, TSN technology truly provides full isolation in the transport network compared to standard Ethernet thanks to traffic prioritization, traffic regulation, and bandwidth reservation capabilities.
close
@Article{s22010229,
AUTHOR = {Chinchilla-Romero, Lorena and Prados-Garzon, Jonathan and Ameigeiras, Pablo and Munoz, Pablo and Lopez-Soler, Juan M.},
TITLE = {5G Infrastructure Network Slicing: E2E Mean Delay Model and Effectiveness Assessment to Reduce Downtimes in Industry 4.0},
JOURNAL = {Sensors},
VOLUME = {22},
YEAR = {2022},
NUMBER = {1},
ARTICLE-NUMBER = {229},
URL = {https://www.mdpi.com/1424-8220/22/1/229},
PubMedID = {35009771},
ISSN = {1424-8220},
ABSTRACT = {Fifth Generation (5G) is expected to meet stringent performance network requisites of the Industry 4.0. Moreover, its built-in network slicing capabilities allow for the support of the traffic heterogeneity in Industry 4.0 over the same physical network infrastructure. However, 5G network slicing capabilities might not be enough in terms of degree of isolation for many private 5G networks use cases, such as multi-tenancy in Industry 4.0. In this vein, infrastructure network slicing, which refers to the use of dedicated and well isolated resources for each network slice at every network domain, fits the necessities of those use cases. In this article, we evaluate the effectiveness of infrastructure slicing to provide isolation among production lines (PLs) in an industrial private 5G network. To that end, we develop a queuing theory-based model to estimate the end-to-end (E2E) mean packet delay of the infrastructure slices. Then, we use this model to compare the E2E mean delay for two configurations, i.e., dedicated infrastructure slices with segregated resources for each PL against the use of a single shared infrastructure slice to serve the performance-sensitive traffic from PLs. Also we evaluate the use of Time-Sensitive Networking (TSN) against bare Ethernet to provide layer 2 connectivity among the 5G system components. We use a complete and realistic setup based on experimental and simulation data of the scenario considered. Our results support the effectiveness of infrastructure slicing to provide isolation in performance among the different slices. Then, using dedicated slices with segregated resources for each PL might reduce the number of the production downtimes and associated costs as the malfunctioning of a PL will not affect the network performance perceived by the performance-sensitive traffic from other PLs. Last, our results show that, besides the improvement in performance, TSN technology truly provides full isolation in the transport network compared to standard Ethernet thanks to traffic prioritization, traffic regulation, and bandwidth reservation capabilities.},
DOI = {10.3390/s22010229},
project={5gclarity|true5g},
impact = {(IF=3.9, Q2)},
}
close
NLP Powered Intent Based Network Management for Private 5G NetworksIEEE Access, 11, pp. 36642-36657, 2023, DOI: 10.1109/ACCESS.2023.3265894. (IF=3.9, Q2)
"NLP Powered Intent Based Network Management for Private 5G Networks", Joseph Mcnamara, Daniel Camps-Mur, Meysam Goodarzi, Hilary Frank, Lorena Chinchilla-Romero, Ferran Canellas, Adriana Fernandez-Fernandez, Shuangyi Yan, IEEE Access, 11, pp. 36642-36657, 2023. DOI: 10.1109/ACCESS.2023.3265894close
@ARTICLE{10097683, author={Mcnamara, Joseph and Camps-Mur, Daniel and Goodarzi, Meysam and Frank, Hilary and Chinchilla-Romero, Lorena and Canellas, Ferran and Fernandez-Fernandez, Adriana and Yan, Shuangyi}, journal={IEEE Access}, title={NLP Powered Intent Based Network Management for Private 5G Networks}, year={2023}, volume={11}, number={}, pages={36642-36657}, doi={10.1109/ACCESS.2023.3265894}, impact = {(IF=3.9, Q2)}, project = {5gclarity}}close
5G Infrastructure Network Slicing: E2E Mean Delay Model and Effectiveness Assessment to Reduce Downtimes in Industry 4.0Sensors, 22 (1), 2022, DOI: 10.3390/s22010229. (IF=3.9, Q2)
"5G Infrastructure Network Slicing: E2E Mean Delay Model and Effectiveness Assessment to Reduce Downtimes in Industry 4.0", Lorena Chinchilla-Romero, Jonathan Prados-Garzon, Pablo Ameigeiras, Pablo Munoz, Juan M. Lopez-Soler, Sensors, 22 (1), 2022. DOI: 10.3390/s22010229close
Fifth Generation (5G) is expected to meet stringent performance network requisites of the Industry 4.0. Moreover, its built-in network slicing capabilities allow for the support of the traffic heterogeneity in Industry 4.0 over the same physical network infrastructure. However, 5G network slicing capabilities might not be enough in terms of degree of isolation for many private 5G networks use cases, such as multi-tenancy in Industry 4.0. In this vein, infrastructure network slicing, which refers to the use of dedicated and well isolated resources for each network slice at every network domain, fits the necessities of those use cases. In this article, we evaluate the effectiveness of infrastructure slicing to provide isolation among production lines (PLs) in an industrial private 5G network. To that end, we develop a queuing theory-based model to estimate the end-to-end (E2E) mean packet delay of the infrastructure slices. Then, we use this model to compare the E2E mean delay for two configurations, i.e., dedicated infrastructure slices with segregated resources for each PL against the use of a single shared infrastructure slice to serve the performance-sensitive traffic from PLs. Also we evaluate the use of Time-Sensitive Networking (TSN) against bare Ethernet to provide layer 2 connectivity among the 5G system components. We use a complete and realistic setup based on experimental and simulation data of the scenario considered. Our results support the effectiveness of infrastructure slicing to provide isolation in performance among the different slices. Then, using dedicated slices with segregated resources for each PL might reduce the number of the production downtimes and associated costs as the malfunctioning of a PL will not affect the network performance perceived by the performance-sensitive traffic from other PLs. Last, our results show that, besides the improvement in performance, TSN technology truly provides full isolation in the transport network compared to standard Ethernet thanks to traffic prioritization, traffic regulation, and bandwidth reservation capabilities.close
@Article{s22010229, AUTHOR = {Chinchilla-Romero, Lorena and Prados-Garzon, Jonathan and Ameigeiras, Pablo and Munoz, Pablo and Lopez-Soler, Juan M.}, TITLE = {5G Infrastructure Network Slicing: E2E Mean Delay Model and Effectiveness Assessment to Reduce Downtimes in Industry 4.0}, JOURNAL = {Sensors}, VOLUME = {22}, YEAR = {2022}, NUMBER = {1}, ARTICLE-NUMBER = {229}, URL = {https://www.mdpi.com/1424-8220/22/1/229}, PubMedID = {35009771}, ISSN = {1424-8220}, ABSTRACT = {Fifth Generation (5G) is expected to meet stringent performance network requisites of the Industry 4.0. Moreover, its built-in network slicing capabilities allow for the support of the traffic heterogeneity in Industry 4.0 over the same physical network infrastructure. However, 5G network slicing capabilities might not be enough in terms of degree of isolation for many private 5G networks use cases, such as multi-tenancy in Industry 4.0. In this vein, infrastructure network slicing, which refers to the use of dedicated and well isolated resources for each network slice at every network domain, fits the necessities of those use cases. In this article, we evaluate the effectiveness of infrastructure slicing to provide isolation among production lines (PLs) in an industrial private 5G network. To that end, we develop a queuing theory-based model to estimate the end-to-end (E2E) mean packet delay of the infrastructure slices. Then, we use this model to compare the E2E mean delay for two configurations, i.e., dedicated infrastructure slices with segregated resources for each PL against the use of a single shared infrastructure slice to serve the performance-sensitive traffic from PLs. Also we evaluate the use of Time-Sensitive Networking (TSN) against bare Ethernet to provide layer 2 connectivity among the 5G system components. We use a complete and realistic setup based on experimental and simulation data of the scenario considered. Our results support the effectiveness of infrastructure slicing to provide isolation in performance among the different slices. Then, using dedicated slices with segregated resources for each PL might reduce the number of the production downtimes and associated costs as the malfunctioning of a PL will not affect the network performance perceived by the performance-sensitive traffic from other PLs. Last, our results show that, besides the improvement in performance, TSN technology truly provides full isolation in the transport network compared to standard Ethernet thanks to traffic prioritization, traffic regulation, and bandwidth reservation capabilities.}, DOI = {10.3390/s22010229}, project={5gclarity|true5g}, impact = {(IF=3.9, Q2)}, }close
Conferences & Workshops
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Flow Prioritization for TSN Asynchronous Traffic Shapers
International Federation for Information Processing (IFIP) Networking 2023 - TENSOR workshop, June 2023.
CITE
BibTeX
"Flow Prioritization for TSN Asynchronous Traffic Shapers", Julia Caleya-Sanchez, Jonathan Prados-Garzon, Lorena Chinchilla-Romero, Pablo Munoz-Luengo, Pablo Ameigeiras, "International Federation for Information Processing (IFIP) Networking 2023 - TENSOR workshop", 2023
close
@INPROCEEDINGS{EUCNC2023,
author = {Caleya-Sanchez, Julia and Prados-Garzon, Jonathan and Chinchilla-Romero, Lorena and Munoz-Luengo, Pablo and Ameigeiras, Pablo},
title = {Flow Prioritization for TSN Asynchronous Traffic Shapers},
booktitle = {International Federation for Information Processing (IFIP) Networking 2023 - TENSOR workshop},
year = {2023},
publisher = {IFIP Technical Committee on Communication Systems (TC6)},
month = {June},
address = {Barcelona, Spain},
COMMENTdoi = {xxx},
project = {5gclarity|true5g|6gchronos},
COMMENTurl = {https://doi.org/xxx}
}
close
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Autonomous Radio Resource Provisioning in Multi-WAT Private 5G RANs based on DRL
IEEE Wireless Communications and Networking Conference (WCNC), Glasgow, Mar 2023.
CITE
BibTeX
"Autonomous Radio Resource Provisioning in Multi-WAT Private 5G RANs based on DRL", L. Chinchilla-Romero, J. Prados-Garzon, P. Munoz, P. Ameigeiras, J. J. Ramos-Munoz, "IEEE Wireless Communications and Networking Conference (WCNC), Glasgow", 2023
close
@INPROCEEDINGS{AutoCh23,
author = {L. Chinchilla-Romero and J. Prados-Garzon and P. Munoz and P. Ameigeiras and J. J. Ramos-Munoz},
booktitle = {IEEE Wireless Communications and Networking Conference (WCNC), Glasgow},
title = {Autonomous Radio Resource Provisioning in Multi-WAT Private 5G RANs based on DRL},
year = {2023},
publisher = {IEEE},
month = {Mar},
address = {Glasgow, Scotland, UK},
COMMENTdoi = {xxx},
project = {5gclarity|true5g|6gchronos},
COMMENTurl = {https://doi.org/xxx}}
close
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URLLC Achieved Data Rate through Exploiting Multi-Connectivity in Industrial Private 5G Networks with Multi-WAT RANs
IEEE Wireless Communications and Networking Conference (WCNC), Glasgow, Mar 2023.
CITE
BibTeX
"URLLC Achieved Data Rate through Exploiting Multi-Connectivity in Industrial Private 5G Networks with Multi-WAT RANs", L. Chinchilla-Romero, J. Prados-Garzon, P. Munoz, P. Ameigeiras, J. M. Lopez-Soler, "IEEE Wireless Communications and Networking Conference (WCNC), Glasgow", 2023
close
@INPROCEEDINGS{URLLC_Ch23,
author = {L. Chinchilla-Romero and J. Prados-Garzon and P. Munoz and P. Ameigeiras and J. M. Lopez-Soler},
booktitle = {IEEE Wireless Communications and Networking Conference (WCNC), Glasgow},
title = {URLLC Achieved Data Rate through Exploiting Multi-Connectivity in Industrial Private 5G Networks with Multi-WAT RANs},
year = {2023},
publisher = {IEEE},
month = {Mar},
address = {Glasgow, Scotland, UK},
COMMENTdoi = {xxx},
project = {5gclarity|true5g|6gchronos},
COMMENTurl = {https://doi.org/xxx}}
close
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Leveraging DRL for Traffic Prioritization in 5G and Beyond TSN-based Transport Networks
XXXVII Symposium of the International Union of Radio Science (URSI 2022), pp. 1-4, Sep 2022, DOI: 10.5281/zenodo.7060474.
"Leveraging DRL for Traffic Prioritization in 5G and Beyond TSN-based Transport Networks", Jonathan Prados-Garzon, Lorena Chinchilla-Romero, Pablo Munoz, Pablo Ameigeiras, Juan J. Ramos-Munoz, "XXXVII Symposium of the International Union of Radio Science (URSI 2022)", pp. 1-4, 2022. DOI: 10.5281/zenodo.7060474
close
@INPROCEEDINGS{URSI20227060474,
author = {Prados-Garzon, Jonathan and Chinchilla-Romero, Lorena and Munoz, Pablo and Ameigeiras, Pablo and Ramos-Munoz, Juan J.},
title = {Leveraging {DRL} for Traffic Prioritization in {5G} and Beyond {TSN}-based Transport Networks},
booktitle = {XXXVII Symposium of the International Union of Radio Science (URSI 2022)},
year = {2022},
publisher = {Zenodo},
month = {Sep},
pages = {1-4},
address = {Malaga, Spain},
doi = {10.5281/zenodo.7060474},
project = {5gclarity|true5g|6gchronos},
url = {https://doi.org/10.5281/zenodo.7060474}
}
close
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WIMUNET: Current research on Internet of (Robotic) things and 5G
Arqus Research Focus Forum - Artificial Intelligence and its applications, Granada, 2022.
CITE
BibTeX
"WIMUNET: Current research on Internet of (Robotic) things and 5G", P. Munoz, L. Chinchilla-Romero, N. Chinchilla-Romero, J. Prados-Garzon, O. Adamuz-Hinojosa, F. Delgado-Ferro, J. Caleya-Sanchez, P. Rodriguez-Martin, P. Ameigeiras, J. Navarro-Ortiz, J. J. Ramos-Munoz, J. M. Lopez-Soler, "Arqus Research Focus Forum - Artificial Intelligence and its applications, Granada", 2022
close
@INPROCEEDINGS{Auto_Ch23,
author={P. Munoz and L. Chinchilla-Romero and N. Chinchilla-Romero and J. Prados-Garzon and O. Adamuz-Hinojosa and F. Delgado-Ferro and J. Caleya-Sanchez and P. Rodriguez-Martin and P. Ameigeiras and J. Navarro-Ortiz and J. J. Ramos-Munoz and J. M. Lopez-Soler},
booktitle={Arqus Research Focus Forum - Artificial Intelligence and its applications, Granada},
title={WIMUNET: Current research on Internet of (Robotic) things and 5G},
year={2022},
volume={},
number={},
pages={},
project = {5gclarity|true5g|6gchronos|premonition},
doi={}}
close
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DRL-assisted Radio Resource Provisioning in multi-WAT Private 5G Networks
XXXVII Simposio de la URSI (Union Cientifica Internacional de Radio), Malaga, 2022.
CITE
BibTeX
"DRL-assisted Radio Resource Provisioning in multi-WAT Private 5G Networks", L. Chinchilla-Romero, J. Prados-Garzon, P. Munoz, P. Ameigeiras, J. J. Ramos-Munoz, "XXXVII Simposio de la URSI (Union Cientifica Internacional de Radio), Malaga", 2022
close
@INPROCEEDINGS{DRL_Ch22,
author={L. Chinchilla-Romero and J. Prados-Garzon and P. Munoz and P. Ameigeiras and J. J. Ramos-Munoz},
booktitle={XXXVII Simposio de la URSI (Union Cientifica Internacional de Radio), Malaga},
title={DRL-assisted Radio Resource Provisioning in multi-WAT Private 5G Networks},
year={2022},
volume={},
number={},
pages={},
project = {5gclarity|true5g|6gchronos},
doi={}}
close
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WiMuNet's research lines
VI Workshop on QoE, QoS on Multimedia Communications (QQCM'21), 2021.
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Rendimiento de Redes 4G/5G usando una estacion base real (Performance of 4G/5G networks using a real base station)
XV Jornadas de Ingenieria Telematica (JITEL 2021), 2021.
"Rendimiento de Redes 4G/5G usando una estacion base real (Performance of 4G/5G networks using a real base station)", F. Delgado-Ferro, J. Navarro-Ortiz, L. Chinchilla-Romero, P. Munoz-Luengo, "XV Jornadas de Ingenieria Telematica (JITEL 2021)", 2021
close
@INPROCEEDINGS{fdelgado_jitel21a, author={F. {Delgado-Ferro} and J. {Navarro-Ortiz} and L. {Chinchilla-Romero} and P. {Munoz-Luengo}}, booktitle={XV Jornadas de Ingenieria Telematica (JITEL 2021)}, title={Rendimiento de Redes 4G/5G usando una estacion base real (Performance of 4G/5G networks using a real base station)}, year={2021}, project = {5gclarity|true5g}, pdf={https://digibug.ugr.es/handle/10481/71140}}
close
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Asynchronous Time-Sensitive Networking for Industrial Networks
2021 Joint European Conference on Networks and
Communications 6G Summit (EuCNC/6G Summit), pp. 130-135, 2021, DOI: 10.1109/EuCNC/6GSummit51104.2021.9482597.
"Asynchronous Time-Sensitive Networking for Industrial Networks", Jonathan Prados-Garzon, Lorena Chinchilla-Romero, Pablo Ameigeiras, Pablo Munoz, Juan M. Lopez-Soler, "2021 Joint European Conference on Networks and
Communications 6G Summit (EuCNC/6G Summit)", pp. 130-135, 2021. DOI: 10.1109/EuCNC/6GSummit51104.2021.9482597
close
@INPROCEEDINGS{9482597,
author={Prados-Garzon, Jonathan and Chinchilla-Romero, Lorena and Ameigeiras, Pablo and Munoz, Pablo and Lopez-Soler, Juan M.},
booktitle={2021 Joint European Conference on Networks and
Communications 6G Summit (EuCNC/6G Summit)},
title={Asynchronous Time-Sensitive Networking for Industrial Networks},
year={2021},
volume={},
number={},
pages={130-135},
project={5gclarity|true5g},
doi={10.1109/EuCNC/6GSummit51104.2021.9482597}}
close
Flow Prioritization for TSN Asynchronous Traffic ShapersInternational Federation for Information Processing (IFIP) Networking 2023 - TENSOR workshop, June 2023.
CITE
BibTeX
"Flow Prioritization for TSN Asynchronous Traffic Shapers", Julia Caleya-Sanchez, Jonathan Prados-Garzon, Lorena Chinchilla-Romero, Pablo Munoz-Luengo, Pablo Ameigeiras, "International Federation for Information Processing (IFIP) Networking 2023 - TENSOR workshop", 2023close
@INPROCEEDINGS{EUCNC2023, author = {Caleya-Sanchez, Julia and Prados-Garzon, Jonathan and Chinchilla-Romero, Lorena and Munoz-Luengo, Pablo and Ameigeiras, Pablo}, title = {Flow Prioritization for TSN Asynchronous Traffic Shapers}, booktitle = {International Federation for Information Processing (IFIP) Networking 2023 - TENSOR workshop}, year = {2023}, publisher = {IFIP Technical Committee on Communication Systems (TC6)}, month = {June}, address = {Barcelona, Spain}, COMMENTdoi = {xxx}, project = {5gclarity|true5g|6gchronos}, COMMENTurl = {https://doi.org/xxx} }close
Autonomous Radio Resource Provisioning in Multi-WAT Private 5G RANs based on DRLIEEE Wireless Communications and Networking Conference (WCNC), Glasgow, Mar 2023.
CITE
BibTeX
"Autonomous Radio Resource Provisioning in Multi-WAT Private 5G RANs based on DRL", L. Chinchilla-Romero, J. Prados-Garzon, P. Munoz, P. Ameigeiras, J. J. Ramos-Munoz, "IEEE Wireless Communications and Networking Conference (WCNC), Glasgow", 2023close
@INPROCEEDINGS{AutoCh23, author = {L. Chinchilla-Romero and J. Prados-Garzon and P. Munoz and P. Ameigeiras and J. J. Ramos-Munoz}, booktitle = {IEEE Wireless Communications and Networking Conference (WCNC), Glasgow}, title = {Autonomous Radio Resource Provisioning in Multi-WAT Private 5G RANs based on DRL}, year = {2023}, publisher = {IEEE}, month = {Mar}, address = {Glasgow, Scotland, UK}, COMMENTdoi = {xxx}, project = {5gclarity|true5g|6gchronos}, COMMENTurl = {https://doi.org/xxx}}close
URLLC Achieved Data Rate through Exploiting Multi-Connectivity in Industrial Private 5G Networks with Multi-WAT RANsIEEE Wireless Communications and Networking Conference (WCNC), Glasgow, Mar 2023.
CITE
BibTeX
"URLLC Achieved Data Rate through Exploiting Multi-Connectivity in Industrial Private 5G Networks with Multi-WAT RANs", L. Chinchilla-Romero, J. Prados-Garzon, P. Munoz, P. Ameigeiras, J. M. Lopez-Soler, "IEEE Wireless Communications and Networking Conference (WCNC), Glasgow", 2023close
@INPROCEEDINGS{URLLC_Ch23, author = {L. Chinchilla-Romero and J. Prados-Garzon and P. Munoz and P. Ameigeiras and J. M. Lopez-Soler}, booktitle = {IEEE Wireless Communications and Networking Conference (WCNC), Glasgow}, title = {URLLC Achieved Data Rate through Exploiting Multi-Connectivity in Industrial Private 5G Networks with Multi-WAT RANs}, year = {2023}, publisher = {IEEE}, month = {Mar}, address = {Glasgow, Scotland, UK}, COMMENTdoi = {xxx}, project = {5gclarity|true5g|6gchronos}, COMMENTurl = {https://doi.org/xxx}}close
Leveraging DRL for Traffic Prioritization in 5G and Beyond TSN-based Transport NetworksXXXVII Symposium of the International Union of Radio Science (URSI 2022), pp. 1-4, Sep 2022, DOI: 10.5281/zenodo.7060474.
"Leveraging DRL for Traffic Prioritization in 5G and Beyond TSN-based Transport Networks", Jonathan Prados-Garzon, Lorena Chinchilla-Romero, Pablo Munoz, Pablo Ameigeiras, Juan J. Ramos-Munoz, "XXXVII Symposium of the International Union of Radio Science (URSI 2022)", pp. 1-4, 2022. DOI: 10.5281/zenodo.7060474close
@INPROCEEDINGS{URSI20227060474, author = {Prados-Garzon, Jonathan and Chinchilla-Romero, Lorena and Munoz, Pablo and Ameigeiras, Pablo and Ramos-Munoz, Juan J.}, title = {Leveraging {DRL} for Traffic Prioritization in {5G} and Beyond {TSN}-based Transport Networks}, booktitle = {XXXVII Symposium of the International Union of Radio Science (URSI 2022)}, year = {2022}, publisher = {Zenodo}, month = {Sep}, pages = {1-4}, address = {Malaga, Spain}, doi = {10.5281/zenodo.7060474}, project = {5gclarity|true5g|6gchronos}, url = {https://doi.org/10.5281/zenodo.7060474} }close
WIMUNET: Current research on Internet of (Robotic) things and 5GArqus Research Focus Forum - Artificial Intelligence and its applications, Granada, 2022.
CITE
BibTeX
"WIMUNET: Current research on Internet of (Robotic) things and 5G", P. Munoz, L. Chinchilla-Romero, N. Chinchilla-Romero, J. Prados-Garzon, O. Adamuz-Hinojosa, F. Delgado-Ferro, J. Caleya-Sanchez, P. Rodriguez-Martin, P. Ameigeiras, J. Navarro-Ortiz, J. J. Ramos-Munoz, J. M. Lopez-Soler, "Arqus Research Focus Forum - Artificial Intelligence and its applications, Granada", 2022close
@INPROCEEDINGS{Auto_Ch23, author={P. Munoz and L. Chinchilla-Romero and N. Chinchilla-Romero and J. Prados-Garzon and O. Adamuz-Hinojosa and F. Delgado-Ferro and J. Caleya-Sanchez and P. Rodriguez-Martin and P. Ameigeiras and J. Navarro-Ortiz and J. J. Ramos-Munoz and J. M. Lopez-Soler}, booktitle={Arqus Research Focus Forum - Artificial Intelligence and its applications, Granada}, title={WIMUNET: Current research on Internet of (Robotic) things and 5G}, year={2022}, volume={}, number={}, pages={}, project = {5gclarity|true5g|6gchronos|premonition}, doi={}}close
DRL-assisted Radio Resource Provisioning in multi-WAT Private 5G NetworksXXXVII Simposio de la URSI (Union Cientifica Internacional de Radio), Malaga, 2022.
CITE
BibTeX
"DRL-assisted Radio Resource Provisioning in multi-WAT Private 5G Networks", L. Chinchilla-Romero, J. Prados-Garzon, P. Munoz, P. Ameigeiras, J. J. Ramos-Munoz, "XXXVII Simposio de la URSI (Union Cientifica Internacional de Radio), Malaga", 2022close
@INPROCEEDINGS{DRL_Ch22, author={L. Chinchilla-Romero and J. Prados-Garzon and P. Munoz and P. Ameigeiras and J. J. Ramos-Munoz}, booktitle={XXXVII Simposio de la URSI (Union Cientifica Internacional de Radio), Malaga}, title={DRL-assisted Radio Resource Provisioning in multi-WAT Private 5G Networks}, year={2022}, volume={}, number={}, pages={}, project = {5gclarity|true5g|6gchronos}, doi={}}close
WiMuNet's research linesVI Workshop on QoE, QoS on Multimedia Communications (QQCM'21), 2021.
Rendimiento de Redes 4G/5G usando una estacion base real (Performance of 4G/5G networks using a real base station)XV Jornadas de Ingenieria Telematica (JITEL 2021), 2021.
"Rendimiento de Redes 4G/5G usando una estacion base real (Performance of 4G/5G networks using a real base station)", F. Delgado-Ferro, J. Navarro-Ortiz, L. Chinchilla-Romero, P. Munoz-Luengo, "XV Jornadas de Ingenieria Telematica (JITEL 2021)", 2021close
@INPROCEEDINGS{fdelgado_jitel21a, author={F. {Delgado-Ferro} and J. {Navarro-Ortiz} and L. {Chinchilla-Romero} and P. {Munoz-Luengo}}, booktitle={XV Jornadas de Ingenieria Telematica (JITEL 2021)}, title={Rendimiento de Redes 4G/5G usando una estacion base real (Performance of 4G/5G networks using a real base station)}, year={2021}, project = {5gclarity|true5g}, pdf={https://digibug.ugr.es/handle/10481/71140}}close
Asynchronous Time-Sensitive Networking for Industrial Networks2021 Joint European Conference on Networks and Communications 6G Summit (EuCNC/6G Summit), pp. 130-135, 2021, DOI: 10.1109/EuCNC/6GSummit51104.2021.9482597.
"Asynchronous Time-Sensitive Networking for Industrial Networks", Jonathan Prados-Garzon, Lorena Chinchilla-Romero, Pablo Ameigeiras, Pablo Munoz, Juan M. Lopez-Soler, "2021 Joint European Conference on Networks and Communications 6G Summit (EuCNC/6G Summit)", pp. 130-135, 2021. DOI: 10.1109/EuCNC/6GSummit51104.2021.9482597close
@INPROCEEDINGS{9482597, author={Prados-Garzon, Jonathan and Chinchilla-Romero, Lorena and Ameigeiras, Pablo and Munoz, Pablo and Lopez-Soler, Juan M.}, booktitle={2021 Joint European Conference on Networks and Communications 6G Summit (EuCNC/6G Summit)}, title={Asynchronous Time-Sensitive Networking for Industrial Networks}, year={2021}, volume={}, number={}, pages={130-135}, project={5gclarity|true5g}, doi={10.1109/EuCNC/6GSummit51104.2021.9482597}}close
Standards
White Papers
-
AI and ML - Enablers for Beyond 5G Networks
5G PPP, May 2021, URL: https://5g-ppp.eu/wp-content/uploads/2021/05/AI-MLforNetworks-v1-0.pdf.
"AI and ML - Enablers for Beyond 5G Networks", J. Prados-Garzon, L. Chinchilla-Romero, P. Munoz, J. J. Ramos-Munoz, 5G PPP, 2021. DOI: 10.5281/zenodo.4299895
close
@techreport{5GPPPWP2021,
author = "J. {Prados-Garzon} and L. {Chinchilla-Romero} and P. {Munoz} and J. J. {Ramos-Munoz}",
title = "AI and ML - Enablers for Beyond 5G Networks",
institution = "5G PPP",
year = "2021",
type = "whitepaper",
number = "",
address = "",
month = "May",
note = "",
annote = "",
DOI = {10.5281/zenodo.4299895},
URL={https://5g-ppp.eu/wp-content/uploads/2021/05/AI-MLforNetworks-v1-0.pdf},
project = {5gclarity}
}
close
AI and ML - Enablers for Beyond 5G Networks5G PPP, May 2021, URL: https://5g-ppp.eu/wp-content/uploads/2021/05/AI-MLforNetworks-v1-0.pdf.
"AI and ML - Enablers for Beyond 5G Networks", J. Prados-Garzon, L. Chinchilla-Romero, P. Munoz, J. J. Ramos-Munoz, 5G PPP, 2021. DOI: 10.5281/zenodo.4299895close
@techreport{5GPPPWP2021, author = "J. {Prados-Garzon} and L. {Chinchilla-Romero} and P. {Munoz} and J. J. {Ramos-Munoz}", title = "AI and ML - Enablers for Beyond 5G Networks", institution = "5G PPP", year = "2021", type = "whitepaper", number = "", address = "", month = "May", note = "", annote = "", DOI = {10.5281/zenodo.4299895}, URL={https://5g-ppp.eu/wp-content/uploads/2021/05/AI-MLforNetworks-v1-0.pdf}, project = {5gclarity} }close
Deliverables
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Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.3. Evaluation of E2E 5G Infrastructure and Service Slices, and of the Developed Self-Learning ML Algorithms
5G-CLARITY, October 2022, URL: https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D43-Amended.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.3. Evaluation of E2E 5G Infrastructure and Service Slices, and of the Developed Self-Learning ML Algorithms ", J. McNamara, A. Yesilkaya, A. Purwita, C. Colman-Meixner, H. Li, H. Frank, S. Yan, X. Zhou, D. Camps-Mur, D. Gonzalez-Sanchez, I. Soto-Campos, D. Fernandez-Cambronero, J. Prados-Garzon, J. J. Ramos-Munoz, L. Chinchilla-Romero, P. Munoz-Luengo, J. Perez-Romero, O. Sallent, I. Vila, J. A. Ordonez-Lucena, I Dominguez-Martinez, M. Goodarzi, T. Cogalan, M. Ghoraishi, 5G-CLARITY, 2022
close
@techreport{5GCLARITYD43,
author = "J. McNamara and A. Yesilkaya and A. Purwita and C. Colman-Meixner and H. Li and H. Frank and S. Yan and X. Zhou and D. Camps-Mur and D. Gonzalez-Sanchez and I. Soto-Campos and D. Fernandez-Cambronero and J. Prados-Garzon and J. J. Ramos-Munoz and L. Chinchilla-Romero and P. Munoz-Luengo and J. Perez-Romero and O. Sallent and I. Vila and J. A. Ordonez-Lucena and I Dominguez-Martinez and M. Goodarzi and T. Cogalan and M. Ghoraishi",
title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.3. Evaluation of E2E 5G Infrastructure and Service Slices, and of the Developed Self-Learning ML Algorithms ",
institution = "5G-CLARITY",
year = "2022",
type = "deliverable",
month = "October",
URL = {https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D43-Amended.pdf},
project = {5gclarity}
}
close
-
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.4. Final System Architecture and Its Evaluation
5G-CLARITY, October 2022, URL: https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D24-Amended.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.4. Final System Architecture and Its Evaluation", A. Tzanakaki, M. Anastasopoulos, J. A. Ordonez-Lucena, D. Camps-Mur, A. Manolopoulos, V. M. Alevizaki, P. Georgiadis, C. Colman-Meixner, S. Yang, H. Alshaer, A. Garcia, K. Chackravaram, J. Prados-Garzon, L. Chinchilla-Romero, P. Ameigeiras, P. Munoz-Luengo, D. Gonzalez-Sanchez, I. Dominguez-Martinez, R. Bian, T. Cogalan, J. McNamara, N. C. Manjappa, R. Vasist, M. Goodarzi, J. Gutierrez, V. Sark, M. Ghoraishi, A. Jain, 5G-CLARITY, 2022
close
@techreport{5GCLARITYD24,
author = "A. Tzanakaki and M. Anastasopoulos and J. A. Ordonez-Lucena and D. Camps-Mur and A. Manolopoulos and V. M. Alevizaki and P. Georgiadis and C. Colman-Meixner and S. Yang and
H. Alshaer and A. Garcia and K. Chackravaram and J. Prados-Garzon and L. Chinchilla-Romero and P. Ameigeiras and P. Munoz-Luengo
and D. Gonzalez-Sanchez and I. Dominguez-Martinez and R. Bian and T. Cogalan and J. McNamara and N. C. Manjappa and R. Vasist and M. Goodarzi and J. Gutierrez and V. Sark and M. Ghoraishi and A. Jain",
title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.4. Final System Architecture and Its Evaluation",
institution = "5G-CLARITY",
year = "2022",
type = "deliverable",
month = "October",
URL = {https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D24-Amended.pdf},
project = {5gclarity}
}
close
-
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.2. Validation of 5G-CLARITY SDN/NFV Platform, Interface Design with 5G Service Platform, and Initial Evaluation of ML Algorithms
5G-CLARITY, July 2021, URL: https://5gclarity.com/wp-content/uploads/2021/11/5G-CLARITY_D42.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.2. Validation of 5G-CLARITY SDN/NFV Platform, Interface Design with 5G Service Platform, and Initial Evaluation of ML Algorithms", J. Ordonez-Lucena, O. Adamuz-Hinojosa, P. Ameigeiras, L. Chinchilla-Romero, P. Munoz-Luengo, J. Navarro-Ortiz, J. Prados-Garzon, J. J. Ramos-Munoz, D. Camps-Mur, F. Canellas, J. Perez-Romero, O. Sallent, I. Vila, A. Purwita, A. Yesilkaya, A. Garcia, K. Chackravaram, E. Aumayr, J. Mcnamara, C. Colman-Meixner, X. Zhou, A. Emami, S. Yan, S. Raju, R. Bian, T. Cogalan, I. Hemadeh, M. Ghoraishi, 5G-CLARITY, 2021
close
@techreport{5GCLARITYD42,
author = "J. Ordonez-Lucena and O. Adamuz-Hinojosa and P. Ameigeiras and L. Chinchilla-Romero and P. Munoz-Luengo and J. Navarro-Ortiz and J. Prados-Garzon and J. J. Ramos-Munoz and D. Camps-Mur and F. Canellas and J. Perez-Romero and O. Sallent and I. Vila and A. Purwita and A. Yesilkaya and A. Garcia and K. Chackravaram and E. Aumayr and J. Mcnamara and C. Colman-Meixner and X. Zhou and A. Emami and S. Yan and S. Raju and R. Bian and T. Cogalan and I. Hemadeh and M. Ghoraishi",
title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.2. Validation of 5G-CLARITY SDN/NFV Platform, Interface Design with 5G Service Platform, and Initial Evaluation of ML Algorithms",
institution = "5G-CLARITY",
year = "2021",
type = "deliverable",
month = "July",
URL = {https://5gclarity.com/wp-content/uploads/2021/11/5G-CLARITY_D42.pdf},
project = {5gclarity}
}
close
-
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.3. Primary System Architecture Evaluation
5G-CLARITY, July 2021, URL: https://5gclarity.com/wp-content/uploads/2021/10/5G-CLARITY_D23.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.3. Primary System Architecture Evaluation", A. Tzanakaki, J. A. Ordonez-Lucena, D. Camps-Mur, A. Manolopoulos, P. Georgiades, V. M. Alevizaki, S. Maglaris, M. Anastasopoulos, A. Tzanakaki, A. Garcia, K. Chackravaram, J. Prados-Garzon, L. Chinchilla-Romero, P. Ameigeiras, P. Munoz-Luengo, H. Alshaer, A. Yesilkaya, R. Bian, T. Cogalan, R. Vasist, M. Goodarzi, J. Gutierrez, V. Sark, M. Ghoraishi, 5G-CLARITY, 2021
close
@techreport{5GCLARITYD23,
author = "A. Tzanakaki and J. A. Ordonez-Lucena and D. Camps-Mur and A. Manolopoulos and P. Georgiades and V. M. Alevizaki and S. Maglaris and M. Anastasopoulos and A. Tzanakaki and A. Garcia and K. Chackravaram and J. Prados-Garzon and L. Chinchilla-Romero and P. Ameigeiras and P. Munoz-Luengo and H. Alshaer and A. Yesilkaya and R. Bian and T. Cogalan and R. Vasist and M. Goodarzi and J. Gutierrez and V. Sark and M. Ghoraishi",
title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.3. Primary System Architecture Evaluation",
institution = "5G-CLARITY",
year = "2021",
type = "deliverable",
month = "July",
URL = {https://5gclarity.com/wp-content/uploads/2021/10/5G-CLARITY_D23.pdf},
project = {5gclarity}
}
close
-
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D6.1. Plan for explotation and dissemination of the project results
5G-CLARITY, Jan 2020, URL: https://www.5gclarity.com/wp-content/uploads/2020/06/5G-CLARITY_D61.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D6.1. Plan for explotation and dissemination of the project results", J. M. Lopez-Soler, O. Adamuz-Hinojosa, J. Navarro-Ortiz, L. Chinchilla-Romero, J. Prados-Garzon, J. Ordonez-Lucena, G. Rigazzi, U. Olvera-Hernandez, D. Camps-Mur, A. Garcia, T. Cogalan, S. Yan, R. Bian, E. Aumayr, M. A. Granda, J. Gutierrez-Teran, M. Ghoraishi, 5G-CLARITY, 2020
close
@techreport{5GCLARITYD61,
author = "J. M. {Lopez-Soler} and O. {Adamuz-Hinojosa} and J. {Navarro-Ortiz} and L. {Chinchilla-Romero} and J. {Prados-Garzon} and J. {Ordonez-Lucena} and G. {Rigazzi} and U. {Olvera-Hernandez} and D. {Camps-Mur} and A. {Garcia} and T. {Cogalan} and S. {Yan} and R. {Bian} and E. {Aumayr} and M. A. {Granda} and J. {Gutierrez-Teran} and M. Ghoraishi",
title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D6.1. Plan for explotation and dissemination of the project results",
institution = "5G-CLARITY",
year = "2020",
type = "deliverable",
month = "Jan",
URL = {https://www.5gclarity.com/wp-content/uploads/2020/06/5G-CLARITY_D61.pdf},
project = {5gclarity}
}
close
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.3. Evaluation of E2E 5G Infrastructure and Service Slices, and of the Developed Self-Learning ML Algorithms5G-CLARITY, October 2022, URL: https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D43-Amended.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.3. Evaluation of E2E 5G Infrastructure and Service Slices, and of the Developed Self-Learning ML Algorithms ", J. McNamara, A. Yesilkaya, A. Purwita, C. Colman-Meixner, H. Li, H. Frank, S. Yan, X. Zhou, D. Camps-Mur, D. Gonzalez-Sanchez, I. Soto-Campos, D. Fernandez-Cambronero, J. Prados-Garzon, J. J. Ramos-Munoz, L. Chinchilla-Romero, P. Munoz-Luengo, J. Perez-Romero, O. Sallent, I. Vila, J. A. Ordonez-Lucena, I Dominguez-Martinez, M. Goodarzi, T. Cogalan, M. Ghoraishi, 5G-CLARITY, 2022close
@techreport{5GCLARITYD43, author = "J. McNamara and A. Yesilkaya and A. Purwita and C. Colman-Meixner and H. Li and H. Frank and S. Yan and X. Zhou and D. Camps-Mur and D. Gonzalez-Sanchez and I. Soto-Campos and D. Fernandez-Cambronero and J. Prados-Garzon and J. J. Ramos-Munoz and L. Chinchilla-Romero and P. Munoz-Luengo and J. Perez-Romero and O. Sallent and I. Vila and J. A. Ordonez-Lucena and I Dominguez-Martinez and M. Goodarzi and T. Cogalan and M. Ghoraishi", title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.3. Evaluation of E2E 5G Infrastructure and Service Slices, and of the Developed Self-Learning ML Algorithms ", institution = "5G-CLARITY", year = "2022", type = "deliverable", month = "October", URL = {https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D43-Amended.pdf}, project = {5gclarity} }close
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.4. Final System Architecture and Its Evaluation5G-CLARITY, October 2022, URL: https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D24-Amended.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.4. Final System Architecture and Its Evaluation", A. Tzanakaki, M. Anastasopoulos, J. A. Ordonez-Lucena, D. Camps-Mur, A. Manolopoulos, V. M. Alevizaki, P. Georgiadis, C. Colman-Meixner, S. Yang, H. Alshaer, A. Garcia, K. Chackravaram, J. Prados-Garzon, L. Chinchilla-Romero, P. Ameigeiras, P. Munoz-Luengo, D. Gonzalez-Sanchez, I. Dominguez-Martinez, R. Bian, T. Cogalan, J. McNamara, N. C. Manjappa, R. Vasist, M. Goodarzi, J. Gutierrez, V. Sark, M. Ghoraishi, A. Jain, 5G-CLARITY, 2022close
@techreport{5GCLARITYD24, author = "A. Tzanakaki and M. Anastasopoulos and J. A. Ordonez-Lucena and D. Camps-Mur and A. Manolopoulos and V. M. Alevizaki and P. Georgiadis and C. Colman-Meixner and S. Yang and H. Alshaer and A. Garcia and K. Chackravaram and J. Prados-Garzon and L. Chinchilla-Romero and P. Ameigeiras and P. Munoz-Luengo and D. Gonzalez-Sanchez and I. Dominguez-Martinez and R. Bian and T. Cogalan and J. McNamara and N. C. Manjappa and R. Vasist and M. Goodarzi and J. Gutierrez and V. Sark and M. Ghoraishi and A. Jain", title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.4. Final System Architecture and Its Evaluation", institution = "5G-CLARITY", year = "2022", type = "deliverable", month = "October", URL = {https://5gclarity.com/wp-content/uploads/2023/03/5G-CLARITY-D24-Amended.pdf}, project = {5gclarity} }close
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.2. Validation of 5G-CLARITY SDN/NFV Platform, Interface Design with 5G Service Platform, and Initial Evaluation of ML Algorithms5G-CLARITY, July 2021, URL: https://5gclarity.com/wp-content/uploads/2021/11/5G-CLARITY_D42.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.2. Validation of 5G-CLARITY SDN/NFV Platform, Interface Design with 5G Service Platform, and Initial Evaluation of ML Algorithms", J. Ordonez-Lucena, O. Adamuz-Hinojosa, P. Ameigeiras, L. Chinchilla-Romero, P. Munoz-Luengo, J. Navarro-Ortiz, J. Prados-Garzon, J. J. Ramos-Munoz, D. Camps-Mur, F. Canellas, J. Perez-Romero, O. Sallent, I. Vila, A. Purwita, A. Yesilkaya, A. Garcia, K. Chackravaram, E. Aumayr, J. Mcnamara, C. Colman-Meixner, X. Zhou, A. Emami, S. Yan, S. Raju, R. Bian, T. Cogalan, I. Hemadeh, M. Ghoraishi, 5G-CLARITY, 2021close
@techreport{5GCLARITYD42, author = "J. Ordonez-Lucena and O. Adamuz-Hinojosa and P. Ameigeiras and L. Chinchilla-Romero and P. Munoz-Luengo and J. Navarro-Ortiz and J. Prados-Garzon and J. J. Ramos-Munoz and D. Camps-Mur and F. Canellas and J. Perez-Romero and O. Sallent and I. Vila and A. Purwita and A. Yesilkaya and A. Garcia and K. Chackravaram and E. Aumayr and J. Mcnamara and C. Colman-Meixner and X. Zhou and A. Emami and S. Yan and S. Raju and R. Bian and T. Cogalan and I. Hemadeh and M. Ghoraishi", title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D4.2. Validation of 5G-CLARITY SDN/NFV Platform, Interface Design with 5G Service Platform, and Initial Evaluation of ML Algorithms", institution = "5G-CLARITY", year = "2021", type = "deliverable", month = "July", URL = {https://5gclarity.com/wp-content/uploads/2021/11/5G-CLARITY_D42.pdf}, project = {5gclarity} }close
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.3. Primary System Architecture Evaluation5G-CLARITY, July 2021, URL: https://5gclarity.com/wp-content/uploads/2021/10/5G-CLARITY_D23.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.3. Primary System Architecture Evaluation", A. Tzanakaki, J. A. Ordonez-Lucena, D. Camps-Mur, A. Manolopoulos, P. Georgiades, V. M. Alevizaki, S. Maglaris, M. Anastasopoulos, A. Tzanakaki, A. Garcia, K. Chackravaram, J. Prados-Garzon, L. Chinchilla-Romero, P. Ameigeiras, P. Munoz-Luengo, H. Alshaer, A. Yesilkaya, R. Bian, T. Cogalan, R. Vasist, M. Goodarzi, J. Gutierrez, V. Sark, M. Ghoraishi, 5G-CLARITY, 2021close
@techreport{5GCLARITYD23, author = "A. Tzanakaki and J. A. Ordonez-Lucena and D. Camps-Mur and A. Manolopoulos and P. Georgiades and V. M. Alevizaki and S. Maglaris and M. Anastasopoulos and A. Tzanakaki and A. Garcia and K. Chackravaram and J. Prados-Garzon and L. Chinchilla-Romero and P. Ameigeiras and P. Munoz-Luengo and H. Alshaer and A. Yesilkaya and R. Bian and T. Cogalan and R. Vasist and M. Goodarzi and J. Gutierrez and V. Sark and M. Ghoraishi", title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D2.3. Primary System Architecture Evaluation", institution = "5G-CLARITY", year = "2021", type = "deliverable", month = "July", URL = {https://5gclarity.com/wp-content/uploads/2021/10/5G-CLARITY_D23.pdf}, project = {5gclarity} }close
Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D6.1. Plan for explotation and dissemination of the project results5G-CLARITY, Jan 2020, URL: https://www.5gclarity.com/wp-content/uploads/2020/06/5G-CLARITY_D61.pdf.
"Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D6.1. Plan for explotation and dissemination of the project results", J. M. Lopez-Soler, O. Adamuz-Hinojosa, J. Navarro-Ortiz, L. Chinchilla-Romero, J. Prados-Garzon, J. Ordonez-Lucena, G. Rigazzi, U. Olvera-Hernandez, D. Camps-Mur, A. Garcia, T. Cogalan, S. Yan, R. Bian, E. Aumayr, M. A. Granda, J. Gutierrez-Teran, M. Ghoraishi, 5G-CLARITY, 2020close
@techreport{5GCLARITYD61, author = "J. M. {Lopez-Soler} and O. {Adamuz-Hinojosa} and J. {Navarro-Ortiz} and L. {Chinchilla-Romero} and J. {Prados-Garzon} and J. {Ordonez-Lucena} and G. {Rigazzi} and U. {Olvera-Hernandez} and D. {Camps-Mur} and A. {Garcia} and T. {Cogalan} and S. {Yan} and R. {Bian} and E. {Aumayr} and M. A. {Granda} and J. {Gutierrez-Teran} and M. Ghoraishi", title = "Project H2020 5G-CLARITY (Grant No. 871428): Deliverable D6.1. Plan for explotation and dissemination of the project results", institution = "5G-CLARITY", year = "2020", type = "deliverable", month = "Jan", URL = {https://www.5gclarity.com/wp-content/uploads/2020/06/5G-CLARITY_D61.pdf}, project = {5gclarity} }close
Books & Book Chapters
Patents
-
Metodos de configuracion de redes sensibles al retardo basadas en planificadores con conformacion de trafico asincrono, y con calidad de servicio determinista
Universidad de Granada, 2023.
CITE
BibTeX
"Metodos de configuracion de redes sensibles al retardo basadas en planificadores con conformacion de trafico asincrono, y con calidad de servicio determinista", Universidad de Granada, Julia Caleya-Sanchez, Jonathan Prados-Garzon, Pablo Ameigeiras, Lorena Chinchilla-Romero, Pablo Munoz-Luengo, Juan M. Lopez-Soler, 2023
close
@patent{Caleya2023,
title = {Metodos de configuracion de redes sensibles al retardo basadas en planificadores con conformacion de trafico asincrono, y con calidad de servicio determinista},
commenturl = {https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2003049354},
language = {es},
assignee = {Universidad de Granada},
commenturldate = {2023-xx-xx},
author = {Caleya-Sanchez, Julia and Prados-Garzon, Jonathan and Ameigeiras, Pablo and Chinchilla-Romero, Lorena and Munoz-Luengo, Pablo and Lopez-Soler, Juan M.},
commentmonth = Jun,
year = {2023},
project = {6gchronos|true5g|5gclarity}
}
close
Metodos de configuracion de redes sensibles al retardo basadas en planificadores con conformacion de trafico asincrono, y con calidad de servicio deterministaUniversidad de Granada, 2023.
CITE
BibTeX
"Metodos de configuracion de redes sensibles al retardo basadas en planificadores con conformacion de trafico asincrono, y con calidad de servicio determinista", Universidad de Granada, Julia Caleya-Sanchez, Jonathan Prados-Garzon, Pablo Ameigeiras, Lorena Chinchilla-Romero, Pablo Munoz-Luengo, Juan M. Lopez-Soler, 2023close
@patent{Caleya2023, title = {Metodos de configuracion de redes sensibles al retardo basadas en planificadores con conformacion de trafico asincrono, y con calidad de servicio determinista}, commenturl = {https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2003049354}, language = {es}, assignee = {Universidad de Granada}, commenturldate = {2023-xx-xx}, author = {Caleya-Sanchez, Julia and Prados-Garzon, Jonathan and Ameigeiras, Pablo and Chinchilla-Romero, Lorena and Munoz-Luengo, Pablo and Lopez-Soler, Juan M.}, commentmonth = Jun, year = {2023}, project = {6gchronos|true5g|5gclarity} }close