On Efficient Non-Stationary Channel Emulation in Conductive Phase Matrix Setup for Massive MIMO Performance Testing

Abstract: Massive multiple-input multiple-output (MIMO) is considered as a critical technique in 5G New Radio (NR), due to its capability to significantly improve data rate and link reliability for the radio link. To make it a reality, it is essential to evaluate massive MIMO performance in realistic spatial fading channel conditions. Specifically, dynamic spatial channel emulation is crucial to evaluate the massive MIMO beam operations. Due to the high cost associated with both the traditional conduced testing method a… Show more

“…Reference [27] studied the performance degradation in SMPAC when the non-negligible mutual coupling between probes exists. To reduce hardware costs, [28] discussed a novel virtual MPAC solution for beam-steerable device evaluation. A comprehensive review of MPAC and SMPAC setup for OTA testing is detailed in [29].…”

On dynamic channel emulation in sector MPAC for over-the-air testing of beamformed massive MIMO devices

“…Reference [27] studied the performance degradation in SMPAC when the non-negligible mutual coupling between probes exists. To reduce hardware costs, [28] discussed a novel virtual MPAC solution for beam-steerable device evaluation. A comprehensive review of MPAC and SMPAC setup for OTA testing is detailed in [29].…”

On dynamic channel emulation in sector MPAC for over-the-air testing of beamformed massive MIMO devices

Efficient probe weighting method for multiple-input multiple-output over-the-air testing

A Primal-Dual Interior Point Method for Efficient Probe Weighting in MIMO OTA Testing