A novel 3D frequency domain SAGE algorithm with applications to parameter estimation in mm Wave massive MIMO indoor channels

Millimeter wave(mm Wave) and massive multiple-input multiple-output(MIMO) wireless communication channels show some new characteristics different from conventional channels. In order to have an in-depth understanding of mm Wave massive MIMO channels, we conduct channel measurements at 16, 28, and 38 GHz frequency bands using virtual large horizontal planar arrays in an indoor office environment. First, a three dimensional(3D) frequency domain(FD) parameter estimation algorithm extended from the space alternating generalized expectation-maximization(SAGE) algorithm is proposed and used to process the measurement data.Second, by dividing the large array into several sub-arrays and calculating power delay profiles(PDPs), power azimuth angle profiles(PAAPs), and power elevation angle profiles(PEAPs), we analyze the changes of delay,azimuth angle of arrival(AAo A), and elevation Ao A(EAo A) over the large array. We find that the spatial cross-correlation functions(SCCFs) calculated along different directions of the planar array exhibit significant variations. Third, the comparison of the averaged PDPs(APDPs) at three different frequency bands shows that the attenuation increases when mm Wave channels move to high frequency bands. Furthermore, SCCFs of channels at three frequency bands are also compared for two uniform linear arrays(ULAs). We draw conclusion that the correlation coefficients can be affected by not only measurement environments, but also the relative angle between transmitter(Tx) pointing direction and receiver(Rx) large array, and the operating frequency bands.