Mobile Communication Network Base Station Deployment Under 5G
In this paper, we summarize the following conclusions obtained by different scholars in different application scenarios by querying the relevant literature on rational
Optimal Slicing of mmWave Micro Base Stations for 5G and
Enhanced Mo-bile BroadBand (eMBB), offers the necessary support for bandwidth-demanding applications like high-definition video, three-dimensional video, cloud-based tasks, and
Optimization of 5G base station deployment based on quantum
Initially, we utilize three-dimensional (3D) maps and ray-tracing models to simulate signal propagation, incorporating population density data to distribute users across the street
CN213457363U
The utility model relates to a microwave radar and millimeter wave communication technology field, concretely relates to three-dimensional radar system of MIMO based on 5G basic station.
Three-dimensional aerial base station location for sudden
In this article, for optimizing the three-dimensional (3D) deployment of aerial-BSs for 5G mmWave net-works, a classic deep reinforcement learning (DRL) net-work which named deep Q-network...
3D Beamforming Technologies and Field Trials in 5G
In this paper, we will analyze 3D beamforming properties and applications in wireless communications based on the physical structure of an array antenna, addressing the 3D beam
A Three-Dimensional Fully Polarized Millimeter-Wave Hybrid
Finally, a three-dimensional fully polarized millimeter-wave hybrid propagation channel model (3DFPHPCM) is proposed. The proposed model improves the computational
Optimization of 5G base station deployment based on quantum
Given the shortcomings in 5 G base station deployment in this article, we propose a three-dimensional (3D) optimization scheme for deploying 5 G base stations at 3.5 GHz in
A 3D-FSS-Based and Front-Feeding Shared-Aperture Base Station
This paper presents a novel compact low-profile dual-polarization base station antenna (or unit cell) designed for 5G mobile communications, which does not require
A 3D-FSS-Based and Front-Feeding Shared-Aperture Base
This paper presents a novel compact low-profile dual-polarization base station antenna (or unit cell) designed for 5G mobile communications, which does not require
Three-dimensional aerial base station location for sudden traffic
In this article, for optimizing the three-dimensional (3D) deployment of aerial-BSs for 5G mmWave networks, a classic deep reinforcement learning (DRL) network which named
A Three-Dimensional Fully Polarized Millimeter
Finally, a three-dimensional fully polarized millimeter-wave hybrid propagation channel model (3DFPHPCM) is proposed. The