2020 |
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2. | Choi, Taesang; Won, Seok Ho; Giuseppi, Alessandro; Pietrabissa, Antonio; Kwon, Sungoh Management and Orchestration Architecture for Integrated Access of Satellite and Terrestrial in 5G Inproceedings 2020 International Conference on Information Networking (ICOIN), pp. 40-45, 2020, ISSN: 1976-7684. Abstract | Links | BibTeX | Tags: 5G, Computer architecture, heterogeneous network, high data rate, integrated access, load-balancing, management and orchestration, management standardization, mobility management (mobile radio), multi-connectivity, multiple different radio access technologies, network resources, orchestration architecture, QoS/QoE management, Quality of experience, Quality of service, radio access networks, Rats, reliability, satellite, telecommunication traffic, traffic steering, ultra-low latency @inproceedings{Choi2020, title = {Management and Orchestration Architecture for Integrated Access of Satellite and Terrestrial in 5G}, author = {Taesang Choi and Seok Ho Won and Alessandro Giuseppi and Antonio Pietrabissa and Sungoh Kwon}, doi = {10.1109/ICOIN48656.2020.9016484}, issn = {1976-7684}, year = {2020}, date = {2020-01-01}, booktitle = {2020 International Conference on Information Networking (ICOIN)}, pages = {40-45}, abstract = {Multi-RAT access network, or heterogeneous access network, is considered to be the key enabling technology to satisfy the 5G requirements, such as high data rate, ultra-low latency and reliability. To make efficient use of all the available network resources, various research activities on multi-connectivity have been proposed to simultaneously connect, steer, and orchestrate across multiple different radio access technologies. Standardization of the management and orchestration of multi-connectivity environment, however, has just been initiated, thus further research and development is required. This paper proposes a novel management and orchestration architecture for integrated access of satellite and terrestrial in 5G. It especially focuses on the traffic steering and load-balancing of heterogeneous multi-RAT access environment.}, keywords = {5G, Computer architecture, heterogeneous network, high data rate, integrated access, load-balancing, management and orchestration, management standardization, mobility management (mobile radio), multi-connectivity, multiple different radio access technologies, network resources, orchestration architecture, QoS/QoE management, Quality of experience, Quality of service, radio access networks, Rats, reliability, satellite, telecommunication traffic, traffic steering, ultra-low latency}, pubstate = {published}, tppubtype = {inproceedings} } Multi-RAT access network, or heterogeneous access network, is considered to be the key enabling technology to satisfy the 5G requirements, such as high data rate, ultra-low latency and reliability. To make efficient use of all the available network resources, various research activities on multi-connectivity have been proposed to simultaneously connect, steer, and orchestrate across multiple different radio access technologies. Standardization of the management and orchestration of multi-connectivity environment, however, has just been initiated, thus further research and development is required. This paper proposes a novel management and orchestration architecture for integrated access of satellite and terrestrial in 5G. It especially focuses on the traffic steering and load-balancing of heterogeneous multi-RAT access environment. |
1. | Giuseppi, Alessandro; Pietrabissa, Antonio; Liberati, Francesco; Germanà, Roberto; Priscoli, Francesco Delli Traffic steering and network selection in 5G networks based on Reinforcement Learning Inproceedings Forthcoming European Control Conference 2020, Forthcoming. BibTeX | Tags: 5G, Network Selection, reinforcement learning, traffic steering @inproceedings{Giuseppi2020c, title = {Traffic steering and network selection in 5G networks based on Reinforcement Learning}, author = {Alessandro Giuseppi and Antonio Pietrabissa and Francesco Liberati and Roberto German\`{a} and Francesco Delli Priscoli}, year = {2020}, date = {2020-01-01}, booktitle = {European Control Conference 2020}, keywords = {5G, Network Selection, reinforcement learning, traffic steering}, pubstate = {forthcoming}, tppubtype = {inproceedings} } |
Publications
2020 |
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2. | Management and Orchestration Architecture for Integrated Access of Satellite and Terrestrial in 5G Inproceedings 2020 International Conference on Information Networking (ICOIN), pp. 40-45, 2020, ISSN: 1976-7684. |
1. | Traffic steering and network selection in 5G networks based on Reinforcement Learning Inproceedings Forthcoming European Control Conference 2020, Forthcoming. |