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Communication Dans Un Congrès Année : 2019

STORNS: Stochastic Radio Access Network Slicing

Résumé

Recently released 5G networks empower the novel Network Slicing concept. Network slicing introduces new business models such as allowing telecom providers to lease a virtualized slice of their infrastructure to tenants such as industry verti-cals, e.g. automotive, e-health, factories, etc. However, this new paradigm poses a major challenge when applied to Radio Access Networks (RAN): how to achieve revenue maximization while meeting the diverse service level agreements (SLAs) requested by the infrastructure tenants? In this paper, we propose a new analytical framework, based on stochastic geometry theory, to model realistic RANs that leverage the business opportunities offered by network slicing. We mathematically prove the benefits of slicing radio access networks as compared to non-sliced infrastructures. Based on this, we design a new admission control functional block, STORNS, which takes decisions considering per slice SLA guaranteed average experienced throughput. A radio resource allocation strategy is introduced to optimally allocate transmit power and bandwidth (i.e., a slice of radio access resources) to the users of each infrastructure tenant. Numerical results are illustrated to validate our proposed solution in terms of potential spectral efficiency, and compare it against a non-slicing benchmark.
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Dates et versions

hal-02395761 , version 1 (15-07-2020)

Identifiants

Citer

Vincenzo Sciancalepore, Marco Di Renzo, Xavier Costa-Perez. STORNS: Stochastic Radio Access Network Slicing. ICC 2019 - 2019 IEEE International Conference on Communications (ICC), May 2019, Shanghai, China. pp.1-7, ⟨10.1109/ICC.2019.8761885⟩. ⟨hal-02395761⟩
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