Add to ORKGAbstract In the next generation of mobile network, 5G, mm-wave (mmW) communication is considered one of the main disruptive technologies to increase data rates and improve spectrum efficiency. Wireless backhaul with stationary or moving nodes is one of the best candidate use-cases. This paper provides a comprehensive analysis on the architecture and design of mmW transceiver with automatic gain control (AGC) for mobility management. The focus is on the RF component requirements, especially, power amplifiers, low-noise amplifier and antennas as well as on their impact on the link-budget. Results are provided based on real figures of commercial components
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
This paper presents the approach of extending cellular networks with millimeter-wave backhaul and ac...
This paper presents the approach of extending cellular networks with millimeter-wave backhaul and ac...
Abstract High throughput and ultra low latency are the main requirements for fifth generation (5G) m...
Abstract High throughput and ultra low latency are the main requirements for fifth generation (5G) ...
Abstract In the next generation of mobile network, 5G, mmwave (mmW) communication is considered one...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
The paper aims to provide a high-level view of 5G fronthaul and backhaul wireless transport over mil...
Abstract Millimeter wave communication is one of the main disruptive technologies in upcoming 5G mob...
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
Spectrum scarcity together with high capacity demands make the use of millimeter wave (mmWave) frequ...
The use of unmanned aerial vehicle (UAV)-based communication in millimeter-wave (mmWave) frequencies...
Millimeter-wave (mmWave) communication technology offers a potential and promising solution to suppo...
The next generation of cellular networks (5G) is being designed to provide unprecedented performance...
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
This paper presents the approach of extending cellular networks with millimeter-wave backhaul and ac...
This paper presents the approach of extending cellular networks with millimeter-wave backhaul and ac...
Abstract High throughput and ultra low latency are the main requirements for fifth generation (5G) m...
Abstract High throughput and ultra low latency are the main requirements for fifth generation (5G) ...
Abstract In the next generation of mobile network, 5G, mmwave (mmW) communication is considered one...
The mobile data rates and number of devices are constantly increasing, creating new challenges for t...
The paper aims to provide a high-level view of 5G fronthaul and backhaul wireless transport over mil...
Abstract Millimeter wave communication is one of the main disruptive technologies in upcoming 5G mob...
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
Spectrum scarcity together with high capacity demands make the use of millimeter wave (mmWave) frequ...
The use of unmanned aerial vehicle (UAV)-based communication in millimeter-wave (mmWave) frequencies...
Millimeter-wave (mmWave) communication technology offers a potential and promising solution to suppo...
The next generation of cellular networks (5G) is being designed to provide unprecedented performance...
The trend for dense deployment in future 5G mobile communication networks makes current wired backha...
This paper presents the approach of extending cellular networks with millimeter-wave backhaul and ac...
This paper presents the approach of extending cellular networks with millimeter-wave backhaul and ac...