Citation:
Han, B., Sciancalepore, V., Feng, D., Costa-Pérez, X. y Schotten, H. D. (2019). A Utility-Driven Multi-Queue Admission Control Solution for Network Slicing. In IEEE INFOCOM 2019 Conference on Computer Communications.
xmlui.dri2xhtml.METS-1.0.item-contributor-funder:
European Commission
Sponsor:
This work has been partially funded by the European Union Horizon-2020 Projects 5G-MoNArch and 5G-Transformer under Grant Agreements 761445 and 761536 as well as by the Network for the Promotion of Young Scientists (TU-Nachwuchsring), TU Kaiserslautern with individual funding.
The combination of recent emerging technologies such as network function virtualization (NFV) and network programmability (SDN) gave birth to the Network Slicing revolution. 5G networks consist of multi-tenant infrastructures capable of offering leased networkThe combination of recent emerging technologies such as network function virtualization (NFV) and network programmability (SDN) gave birth to the Network Slicing revolution. 5G networks consist of multi-tenant infrastructures capable of offering leased network “slices” to new customers (e.g., vertical industries) enabling a new telecom business model: Slice-as-a-Service (SlaaS). In this paper, we aim i) to study the slicing admission control problem by means of a multi-queuing system for heterogeneous tenant requests, ii) to derive its statistical behavior model, and iii) to provide a utility-based admission control optimization. Our results analyze the capability of the proposed SlaaS system to be approximately Markovian and evaluate its performance as compared to legacy solutions.[+][-]
Description:
38th IEEE International Conference on Computer Communications (IEEE INFOCOM 2019)