95 research outputs found
Dynamic mmWave Channel Emulation in a Cost-Effective MPAC with Dominant-Cluster Concept
Millimeter-Wave (mmWave) massive multiple-input multiple-output (MIMO) has
been considered as a key enabler for the fifth-generation (5G) communications.
It is essential to design and test mmWave 5G devices under various realistic
scenarios, since the radio propagation channels pose intrinsic limitations on
the performance. This requires emulating realistic dynamic mmWave channels in a
reproducible manner in laboratories, which is the goal of this paper. In this
contribution, we firstly illustrate the dominant-cluster(s) concept, where the
non-dominant clusters in the mmWave channels are pruned, for mmWave 5G devices
applying massive MIMO beamforming. This demonstrates the importance and
necessity to accurately emulate the mmWave channels at a cluster level rather
than the composite-channel level. Thus, an over-the-air (OTA) emulation
strategy for dynamic mmWave channels is proposed based on the concept of
dominant-cluster(s) in a sectored multiprobe anechoic chamber (SMPAC). The key
design parameters including the probe number and the angular spacing of probes
are investigated through comprehensive simulations. A cost-effective
switchcircuit is also designed for this purpose and validated in the
simulation. Furthermore, a dynamic mmWave channel measured in an indoor
scenario at 28-30 GHz is presented, where the proposed emulation strategy is
also validated by reproducing the measured reality.Comment: Accepted by IEEE Transactions on Antennas and Propagatio
Dynamic mmWave Channel Emulation in a Cost-Effective MPAC with Dominant-Cluster Concept
Millimeter-Wave (mmWave) massive multiple-input multiple-output (MIMO) has been considered as a key enabler for the fifth-generation (5G) communications. It is essential to design and test mmWave 5G devices under various realisticscenarios since the radio propagation channels pose intrinsic limitations on the performance. This requires emulating realistic dynamic mmWave channels in a reproducible manner in laboratories, which is the goal of this paper. In this contribution, we first illustrate the dominant-cluster(s) concept, where thenon-dominant clusters in the mmWave channels are pruned, for mmWave 5G devices applying massive MIMO beamforming. This demonstrates the importance and necessity to accurately emulate the mmWave channels at a cluster level rather than the composite-channel level. Thus, an over-the-air (OTA) emulationstrategy for dynamic mmWave channels is proposed based on the concept of dominant-cluster(s) in a sectored multiprobe anechoic chamber (SMPAC). The key design parameters including the probe number and the angular spacing of probes are investigated through comprehensive simulations. A cost-effective switch circuit is also designed for this purpose and validated in the simulation. Furthermore, a dynamic mmWave channel measured in an indoor scenario at 28-30 GHz is presented, where the proposed emulation strategy is also validated by reproducing the measured reality
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