A tensor-based multi-stage channel estimation method for XL-CRIS-aided mmWave MIMO-NOMA systems that maintains angle-invariant near-field properties under beam squint.
Enabling more users to benefit from near-field communications: From linear to circular array
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
eess.SP 2verdicts
UNVERDICTED 2representative citing papers
Under fixed element count ULAs achieve narrower beamdepth, longer EBRD and higher sum rate than UCAs; under fixed aperture UCAs show marginal gains, with new closed-form EBRD and beamdepth expressions for UCAs.
citing papers explorer
-
Near-Field Channel Estimation for Extremely Large-Scale Circular RIS-Aided mmWave MIMO-NOMA System with Beam Squint Effect
A tensor-based multi-stage channel estimation method for XL-CRIS-aided mmWave MIMO-NOMA systems that maintains angle-invariant near-field properties under beam squint.
-
Uniform Circular Arrays in Near-Field: Omnidirectional Coverage with Limited Capacity
Under fixed element count ULAs achieve narrower beamdepth, longer EBRD and higher sum rate than UCAs; under fixed aperture UCAs show marginal gains, with new closed-form EBRD and beamdepth expressions for UCAs.