Fluid antennas combined with 1D-CNN channel reconstruction improve active user detection error rates and NMSE in unsourced random access via simulation.
Fundamental tradeoffs for multiple access in finite- blocklength regime,
3 Pith papers cite this work. Polarity classification is still indexing.
fields
cs.IT 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
The paper introduces a fluid antenna-aided unsourced ISAC framework at the transmitter that claims to cut per-user error probability and boost AOA sensing accuracy, with a reported 40 dB gain over TDMA at 1000 users.
An improved genetic algorithm optimizes port activation in planar fluid antenna arrays to achieve 4.45 dB lower peak sidelobe levels than canonical GA under sparsity constraints.
citing papers explorer
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Fluid-Antenna-Aided Active User Detection With 1D-CNN Channel Reconstruction for Unsourced Random Access
Fluid antennas combined with 1D-CNN channel reconstruction improve active user detection error rates and NMSE in unsourced random access via simulation.
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Fluid Antenna-assisted Unsourced ISAC Massive Access
The paper introduces a fluid antenna-aided unsourced ISAC framework at the transmitter that claims to cut per-user error probability and boost AOA sensing accuracy, with a reported 40 dB gain over TDMA at 1000 users.
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Peak Sidelobe Suppression in Planar Fluid Antenna Array
An improved genetic algorithm optimizes port activation in planar fluid antenna arrays to achieve 4.45 dB lower peak sidelobe levels than canonical GA under sparsity constraints.