Add to ORKG\u3cp\u3eIn mobile communications, the research and development for the fifth generation (5G) has gained significant interest in the recent years. The high data rate requirements for 5G introduce more challenges in terms of the system power consumption. Hence, considering the base station, a more efficient antenna system is necessary in order to provide higher signal to noise ratios to achieve the required data rates, while consuming the lowest possible amount of power. In this paper a phased array fed reflector is proposed as a solution for 5G base stations. The main idea is to use the high gain of a reflector antenna to achieve high effective isotropic radiated power (EIRP). That in turn allows the reduction of the number of feed array el...
A millimeter-wave (mm-wave) antenna with enhanced gain for new 5G networks is introduced in this wor...
Application demand for faster data rates is driving the need for wider operating bandwidth of future...
In the fifth-generation (5G) mobile system, new millimeter-wave technologies such as small cell size...
In mobile communications, the research and development for the fifth generation (5G) has gained sign...
A design concept for a phased-array-fed reflector antenna system intended for millimeter-wave base s...
The future adaptability of reflectarray antenna requires a thorough investigation of its main conven...
With the emergence of the mobile fifth generation (5G), additional challenges are introduced for the...
A wide-scan and broadband focal-plane array (FPA) concept is introduced that provides high antenna g...
A wide-scan and broadband focal-plane array (FPA) concept is introduced that provides high antenna g...
The wireless communication range of E-Band point-to-point antenna systems can be extended by increas...
A phased-array antenna design for 5G base station applications in the 3.4-3.8 GHz band is presented....
Presenting a combination of hierarchical beamforming and reflector antennas to cope with the degrada...
In the next few years, the demands and challenges for the 4G (and its derivatives ie LTE-A) alternat...
This article presents a novel, compact reflectarray antenna operating at 5 GHz. The array consists o...
A millimeter-wave (mm-wave) antenna with enhanced gain for new 5G networks is introduced in this wor...
Application demand for faster data rates is driving the need for wider operating bandwidth of future...
In the fifth-generation (5G) mobile system, new millimeter-wave technologies such as small cell size...
In mobile communications, the research and development for the fifth generation (5G) has gained sign...
A design concept for a phased-array-fed reflector antenna system intended for millimeter-wave base s...
The future adaptability of reflectarray antenna requires a thorough investigation of its main conven...
With the emergence of the mobile fifth generation (5G), additional challenges are introduced for the...
A wide-scan and broadband focal-plane array (FPA) concept is introduced that provides high antenna g...
A wide-scan and broadband focal-plane array (FPA) concept is introduced that provides high antenna g...
The wireless communication range of E-Band point-to-point antenna systems can be extended by increas...
A phased-array antenna design for 5G base station applications in the 3.4-3.8 GHz band is presented....
Presenting a combination of hierarchical beamforming and reflector antennas to cope with the degrada...
In the next few years, the demands and challenges for the 4G (and its derivatives ie LTE-A) alternat...
This article presents a novel, compact reflectarray antenna operating at 5 GHz. The array consists o...
A millimeter-wave (mm-wave) antenna with enhanced gain for new 5G networks is introduced in this wor...
Application demand for faster data rates is driving the need for wider operating bandwidth of future...
In the fifth-generation (5G) mobile system, new millimeter-wave technologies such as small cell size...