Edge computing and artificial intelligence promise to turn future mobile networks into service- and radio-aware infrastructures, able to address the requirements of upcoming latency-sensitive applications. For instance, they can be used to dynamically and optimally manage the Radio Access Network Slicing. However, this is a challenging goal, due to the mostly unpredictably nature of the wireless channel. This paper presents a novel architecture using Deep Reinforcement Learning at the network edge for addressing Radio Access Network Slicing and Radio Resource Management. By considering the autonomous-driving use-case, computer simulations demonstrate the effectiveness of our proposal against baseline methodologies.
Deep reinforcement learning-aided RAN slicing enforcement supporting latency sensitive services in B5G networks / Martiradonna, S; Abrardo, A; Moretti, M; Piro, G; Boggia, G. - In: INTERNET TECHNOLOGY LETTERS. - ISSN 2476-1508. - 4:6(2021). [10.1002/itl2.328]
Deep reinforcement learning-aided RAN slicing enforcement supporting latency sensitive services in B5G networks
Martiradonna, S;Piro, G;Boggia, G
2021-01-01
Abstract
Edge computing and artificial intelligence promise to turn future mobile networks into service- and radio-aware infrastructures, able to address the requirements of upcoming latency-sensitive applications. For instance, they can be used to dynamically and optimally manage the Radio Access Network Slicing. However, this is a challenging goal, due to the mostly unpredictably nature of the wireless channel. This paper presents a novel architecture using Deep Reinforcement Learning at the network edge for addressing Radio Access Network Slicing and Radio Resource Management. By considering the autonomous-driving use-case, computer simulations demonstrate the effectiveness of our proposal against baseline methodologies.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
