Add to ORKGAn application study into irregular sparse arrays (ISAs) is proposed to function as base station antennas (BSAs) in a mm-wave multi-user multiple-input multiple-output (MU-MIMO) system. The results show that the sum rate capacity of ISAs can be increased relative to regularly-spaced BSA arrays with half a wavelength element separation, especially for a high number of users. This is due to the narrower beams formed by the larger antenna apertures of sparse arrays. Furthermore, the aperiodic distribution of antenna elements alleviates the problem of grating lobes in sparse arrays and is seen to improve the average power consumption of power amplifiers at the same time
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
\u3cp\u3eAn application study into irregular sparse arrays (ISAs) is proposed to function as base st...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
In this paper, three different base-station antenna (BSA) configurations are compared in terms of in...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
\u3cp\u3eAn application study into irregular sparse arrays (ISAs) is proposed to function as base st...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
An application study into irregular sparse arrays (ISAs) is proposed to function as base station ant...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
In this paper, three different base-station antenna (BSA) configurations are compared in terms of in...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
A system-level study was conducted that evaluated the system performance of various dense and sparse...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...
A novel base station antenna (BSA) configuration is presented to mitigate degrading physical antenna...