The rapid production of mobile devices along with the wireless applications boom is continuing to evolve daily. This motivates the exploitation of wireless spectrum using multiple Radio Access Technologies (multi-RAT) and developing innovative network selection techniques to cope with such intensive demand while improving Quality of Service (QoS). Thus, we propose a distributed framework for dynamic network selection at the edge level, and resource allocation at the Radio Access Network (RAN) level, while taking into consideration diverse applications' characteristics. In particular, our framework employs a deep Multi-Agent Reinforcement Learning (DMARL) algorithm, that aims to maximize the edge nodes' quality of experience while extending ...
Smart health systems improve the existing health services by integrating information and technology ...
Future wireless networks (e.g., 5G) will consist of multiple radio access technologies (RATs). In th...
Edge artificial intelligence will empower the ever simple industrial wireless networks (IWNs) suppor...
Edge artificial intelligence will empower the ever simple industrial wireless networks (IWNs) suppor...
Ultra-dense heterogeneous networks, as a novel network architecture in the fifth-generation mobile c...
The leading role of the HetNet (Heterogeneous Networks) strategy as the key Radio Access Network (RA...
In view of the recent advances in Internet of Things (IoT) devices and the emerging new breed of sma...
With the rapid proliferation of diverse wireless applications, the next generation of wirele...
Wireless networks are trending towards large scale systems, containing thousands of nodes, with mult...
The intelligent Internet of Things (IoT) network is envisioned to be the internet of intelligent thi...
Smart health systems improve our quality oflife by integrating diverse information and technologies ...
5G-and-beyond and Internet of Things (IoT) technologies are pushing a shift from the classic cloud-c...
In this thesis, we study the problem of Multiple Access (MA) in wireless networks and design adaptiv...
While ultra-reliable and low latency communication (uRLLC) is expected to cater to emerging services...
International audienceWhen several radio access technologies (e.g., HSPA, LTE, WiFi and WiMAX) cover...
Smart health systems improve the existing health services by integrating information and technology ...
Future wireless networks (e.g., 5G) will consist of multiple radio access technologies (RATs). In th...
Edge artificial intelligence will empower the ever simple industrial wireless networks (IWNs) suppor...
Edge artificial intelligence will empower the ever simple industrial wireless networks (IWNs) suppor...
Ultra-dense heterogeneous networks, as a novel network architecture in the fifth-generation mobile c...
The leading role of the HetNet (Heterogeneous Networks) strategy as the key Radio Access Network (RA...
In view of the recent advances in Internet of Things (IoT) devices and the emerging new breed of sma...
With the rapid proliferation of diverse wireless applications, the next generation of wirele...
Wireless networks are trending towards large scale systems, containing thousands of nodes, with mult...
The intelligent Internet of Things (IoT) network is envisioned to be the internet of intelligent thi...
Smart health systems improve our quality oflife by integrating diverse information and technologies ...
5G-and-beyond and Internet of Things (IoT) technologies are pushing a shift from the classic cloud-c...
In this thesis, we study the problem of Multiple Access (MA) in wireless networks and design adaptiv...
While ultra-reliable and low latency communication (uRLLC) is expected to cater to emerging services...
International audienceWhen several radio access technologies (e.g., HSPA, LTE, WiFi and WiMAX) cover...
Smart health systems improve the existing health services by integrating information and technology ...
Future wireless networks (e.g., 5G) will consist of multiple radio access technologies (RATs). In th...
Edge artificial intelligence will empower the ever simple industrial wireless networks (IWNs) suppor...