Next generation 5G cellular networks will consist of multiple technologies for devices to access the network at the edge. One of the keys to 5G is, therefore, the ability of devices to intelligently select its radio access technology (RAT). There have been several proposals for RAT selection in the last few years. Understanding the performance and limitation of these RAT selection solutions is important for their deployment in the future 5G heterogeneous networks. In this paper, we provide a taxonomy and comparative performance analysis of recent RAT selection algorithms, including the different network models that were used to evaluate these works. We combine these different network models to build a benchmark for evaluating the RAT select...
The future wireless network is expected to be a heterogeneous system, which integrates different Ra-...
Heterogeneous network (HetNet) comprises multiple radio access technologies (RATs) allowing a user t...
International audienceIn wireless heterogeneous networks, one of the most challenging problems is Ra...
Radio access technology (RAT) selection has recently received much attention from the research commu...
In this paper, we present a machine learning algorithm for effective RAT selection in 5G networks by...
Due to the coexistence of different Radio Access Technologies (RATs), Next Generation Wireless Netwo...
Due to the coexistence of different Radio Access Technologies (RATs), Next Generation Wireless Netwo...
International audienceThe migration of wireless networking towards the 5G era is distinguished by th...
The quantum increase in the number of mobile subscribers which resulted into an exponential growth o...
International audienceWhen several radio access technologies (e.g., HSPA, LTE, WiFi and WiMAX) cover...
The future mobile network will be a heterogeneous system, which integrates different Radio Access Te...
The next generation wireless network is expected to be a heterogeneous. The Radio Access Technology ...
The Fourth Generation of wireless network (4G) is a heterogeneous network where different Radio Acce...
Abstract: In this paper we propose new design for network and protocols architectures of future 5G m...
Next Generation Wireless Network (NGWN) is expected to be a heterogeneous network which integrates a...
The future wireless network is expected to be a heterogeneous system, which integrates different Ra-...
Heterogeneous network (HetNet) comprises multiple radio access technologies (RATs) allowing a user t...
International audienceIn wireless heterogeneous networks, one of the most challenging problems is Ra...
Radio access technology (RAT) selection has recently received much attention from the research commu...
In this paper, we present a machine learning algorithm for effective RAT selection in 5G networks by...
Due to the coexistence of different Radio Access Technologies (RATs), Next Generation Wireless Netwo...
Due to the coexistence of different Radio Access Technologies (RATs), Next Generation Wireless Netwo...
International audienceThe migration of wireless networking towards the 5G era is distinguished by th...
The quantum increase in the number of mobile subscribers which resulted into an exponential growth o...
International audienceWhen several radio access technologies (e.g., HSPA, LTE, WiFi and WiMAX) cover...
The future mobile network will be a heterogeneous system, which integrates different Radio Access Te...
The next generation wireless network is expected to be a heterogeneous. The Radio Access Technology ...
The Fourth Generation of wireless network (4G) is a heterogeneous network where different Radio Acce...
Abstract: In this paper we propose new design for network and protocols architectures of future 5G m...
Next Generation Wireless Network (NGWN) is expected to be a heterogeneous network which integrates a...
The future wireless network is expected to be a heterogeneous system, which integrates different Ra-...
Heterogeneous network (HetNet) comprises multiple radio access technologies (RATs) allowing a user t...
International audienceIn wireless heterogeneous networks, one of the most challenging problems is Ra...