Rotatable antennas at base stations mitigate inter-cell mixed near- and far-field interference in multi-cell systems, yielding higher sum rates through closed-form analysis for single-user cells and a double-layer optimization algorithm for multi-user cells.
Rotatable antennas for near-field integrated sensing and communication,
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Rotatable antennas with multiple synchronized rotations and canonical polyadic tensor decomposition enable high-precision unambiguous DOA estimation for uniform sparse arrays.
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Rotatable Antenna Enabled Multi-Cell Mixed Near-Field and Far-Field Communications
Rotatable antennas at base stations mitigate inter-cell mixed near- and far-field interference in multi-cell systems, yielding higher sum rates through closed-form analysis for single-user cells and a double-layer optimization algorithm for multi-user cells.
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Rotatable Antenna-Enhanced Wireless Sensing with Uniform Sparse Array via Tensor Decomposition
Rotatable antennas with multiple synchronized rotations and canonical polyadic tensor decomposition enable high-precision unambiguous DOA estimation for uniform sparse arrays.