2019
DOI: 10.1109/tvt.2019.2928341
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Real-Time Millimeter-Wave MIMO Channel Sounder for Dynamic Directional Measurements

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Cited by 64 publications
(47 citation statements)
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“…Therefore, the required measurement times to acquire the channel characteristics at each transmitter and receiver location have to be reduced. To better temporally analyze the wireless propagation channel Bas & Molisch et al present in [17], [49] a MIMO channel sounder at 28 GHz based on a phased array structure that performs fast beam steering. Compared to channel sounders with rotating horn antennas the measurement time could drastically be reduced down to milliseconds [17].…”
Section: A Channel Measurements Around 28 Ghzmentioning
confidence: 99%
See 1 more Smart Citation
“…Therefore, the required measurement times to acquire the channel characteristics at each transmitter and receiver location have to be reduced. To better temporally analyze the wireless propagation channel Bas & Molisch et al present in [17], [49] a MIMO channel sounder at 28 GHz based on a phased array structure that performs fast beam steering. Compared to channel sounders with rotating horn antennas the measurement time could drastically be reduced down to milliseconds [17].…”
Section: A Channel Measurements Around 28 Ghzmentioning
confidence: 99%
“…To better temporally analyze the wireless propagation channel Bas & Molisch et al present in [17], [49] a MIMO channel sounder at 28 GHz based on a phased array structure that performs fast beam steering. Compared to channel sounders with rotating horn antennas the measurement time could drastically be reduced down to milliseconds [17]. The channel sounder is used to analyze the outdoor to indoor propagation channel in [50], [51] and to estimate the angular spectrum, delay spread, and Doppler spectrum in an outdoor micro cellular scenario in [52].…”
Section: A Channel Measurements Around 28 Ghzmentioning
confidence: 99%
“…These schemes create a plane wave beam that can be electronically steered to point in any specific direction by phasing individual antenna elements; thus, these schemes offer high flexibility in terms of the ASI and HPBW compared with the antenna-switching scheme. [21] presented a real-time D-D channel sounder for the 28 GHz band that could perform horizontal and vertical beam steering with 8 × 2 phased arrays. D-D measurements can be performed in 1.44 ms by switching the beams rapidly.…”
Section: Introductionmentioning
confidence: 99%
“…To this end, the channel parameters need to be continuously evolving as the UE moves into and out of regions that are covered by the BS with different propagation mechanisms. The authors of [4] present measured investigations into the dynamic behavior of mmWave channels characterizing the channel's delay and angular parameters. For system-level evaluation of performance, in order to model continuously evolving channels, the inclusion of spatial consistency (SC) is mandatory.…”
Section: Introductionmentioning
confidence: 99%