5G Radio Access above 6 GHz. Shariat, M., Gutierrez-Estevez, D. M., Vijay, A., Safjan, K., Rugeland, P., da Silva, I., Lorca, J., Widmer, J., Fresia, M., Li, Y., & Siaud, I. arXiv, 27(9):1160–1167, 2017.
abstract   bibtex   
— Designing and developing a millimetre-wave (mmWave) based mobile Radio Access Technology (RAT) in the 6-100 GHz frequency range is a fundamental component in the standardization of the new 5G radio interface, recently kicked off by 3GPP. Such component, herein called the new mmWave RAT, will not only enable extreme mobile broadband (eMBB) services, but also support UHD/3D streaming, offer immersive applications and ultra-responsive cloud services to provide an outstanding Quality of Experience (QoE) to the mobile users. The main objective of this paper is to develop the network architectural elements and functions that will enable tight integration of mmWave technology into the overall 5G radio access network (RAN). A broad range of topics addressing mobile architecture and network functionalities will be covered―starting with the architectural facets of network slicing, multi-connectivity and cells clustering, to more functional elements of initial access, mobility, radio resource management (RRM) and self-backhauling. The intention of the concepts presented here is to lay foundation for future studies towards the first commercial implementation of the mmWave RAT above 6 GHz.
@article{Shariat2017b,
	title = {{5G} {Radio} {Access} above 6 {GHz}},
	volume = {27},
	issn = {23318422},
	abstract = {— Designing and developing a millimetre-wave (mmWave) based mobile Radio Access Technology (RAT) in the 6-100 GHz frequency range is a fundamental component in the standardization of the new 5G radio interface, recently kicked off by 3GPP. Such component, herein called the new mmWave RAT, will not only enable extreme mobile broadband (eMBB) services, but also support UHD/3D streaming, offer immersive applications and ultra-responsive cloud services to provide an outstanding Quality of Experience (QoE) to the mobile users. The main objective of this paper is to develop the network architectural elements and functions that will enable tight integration of mmWave technology into the overall 5G radio access network (RAN). A broad range of topics addressing mobile architecture and network functionalities will be covered―starting with the architectural facets of network slicing, multi-connectivity and cells clustering, to more functional elements of initial access, mobility, radio resource management (RRM) and self-backhauling. The intention of the concepts presented here is to lay foundation for future studies towards the first commercial implementation of the mmWave RAT above 6 GHz.},
	number = {9},
	journal = {arXiv},
	author = {Shariat, Mehrdad and Gutierrez-Estevez, David M. and Vijay, Arnesh and Safjan, Krystian and Rugeland, Patrik and da Silva, Icaro and Lorca, Javier and Widmer, Joerg and Fresia, Maria and Li, Yilin and Siaud, Isabelle},
	year = {2017},
	keywords = {Architecture, Cells clustering, Multi-connectivity, Network slicing, —mmWave},
	pages = {1160--1167},
}
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