Fifth-generation (5G) mobile communications are expected to integrate multiple radio access technologies (RATs) within a unified access network by allowing the user equipment (UE) to utilize them concurrently. As a consequence, mobile users face even more heterogeneous connectivity options, which creates challenges for efficient decision-making when selecting a network dynamically. In this work, with the tools of queuing theory, integral geometry, and optimization theory, we develop a novel mobility-centric analytical methodology for multi-RAT deployments. Particularly, we first contribute a framework for optimal data rate allocation in the network-assisted regime. Then, we characterize the convergence time of the distributed optimization a...
3GPP New Radio (NR) air interface operating in a millimeter wave frequency band is expected to provi...
With the fourth generation of wireless radio communication networks reaching maturity, the upcoming ...
The number of Internet users is expected to grow exponentially. To keep up with the growing demand a...
Fifth-generation (5G) mobile communications are expected to integrate multiple radio access technolo...
3GPP New Radio (NR) radio access technology operating in millimeter wave (mmWave) frequency band is ...
Wireless cellular systems are evolving towards the integration of services and devices with a divers...
Mobile radio networks have been evolving towards the integration of services and devices with a dive...
The intermittent nature of millimeter wave (mmWave) links caused by human-body blockage is an intrin...
This thesis addresses the problem of optimizing the radio resource allocation in 5G and beyond netwo...
Ultra-dense heterogeneous networks, as a novel network architecture in the fifth-generation mobile c...
Future-generation wireless networks (5G and beyond) must accommodate surging growth in mobile data t...
Millimeter wave (mmWave) communications have been introduced in the 5G standardization process due t...
5G wireless networks will be extremely dense, given the projected increase in the number of users an...
Thesis (Ph.D.)--University of Washington, 2023Ultra-Reliable and Low-Latency Communications (URLLC) ...
Blockage of millimeter-wave (mmWave) radio propagation paths in dense mobile scenarios requires adva...
3GPP New Radio (NR) air interface operating in a millimeter wave frequency band is expected to provi...
With the fourth generation of wireless radio communication networks reaching maturity, the upcoming ...
The number of Internet users is expected to grow exponentially. To keep up with the growing demand a...
Fifth-generation (5G) mobile communications are expected to integrate multiple radio access technolo...
3GPP New Radio (NR) radio access technology operating in millimeter wave (mmWave) frequency band is ...
Wireless cellular systems are evolving towards the integration of services and devices with a divers...
Mobile radio networks have been evolving towards the integration of services and devices with a dive...
The intermittent nature of millimeter wave (mmWave) links caused by human-body blockage is an intrin...
This thesis addresses the problem of optimizing the radio resource allocation in 5G and beyond netwo...
Ultra-dense heterogeneous networks, as a novel network architecture in the fifth-generation mobile c...
Future-generation wireless networks (5G and beyond) must accommodate surging growth in mobile data t...
Millimeter wave (mmWave) communications have been introduced in the 5G standardization process due t...
5G wireless networks will be extremely dense, given the projected increase in the number of users an...
Thesis (Ph.D.)--University of Washington, 2023Ultra-Reliable and Low-Latency Communications (URLLC) ...
Blockage of millimeter-wave (mmWave) radio propagation paths in dense mobile scenarios requires adva...
3GPP New Radio (NR) air interface operating in a millimeter wave frequency band is expected to provi...
With the fourth generation of wireless radio communication networks reaching maturity, the upcoming ...
The number of Internet users is expected to grow exponentially. To keep up with the growing demand a...