Fluid antenna systems have at most K*=2⌈W⌉+1 significant independent eigenmodes set by aperture size W, enabling EDoF and WIM closed-form outage approximations that match exact diversity order and never underestimate performance.
Variable block-correlation modeling and optimization for secrecy analysis in fluid antenna systems
4 Pith papers cite this work. Polarity classification is still indexing.
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eess.SP 4years
2026 4verdicts
UNVERDICTED 4representative citing papers
Fluid antenna systems with continuously optimized positions achieve linear DOF growth with aperture size D/λ and O(1/D^{2L}) CRB scaling for L sources, outperforming grid-constrained designs via a two-stage FAS-MUSIC algorithm.
A fluid-antenna hybrid architecture for DOA estimation achieves near fully-digital accuracy while cutting RF hardware complexity and training overhead in 6G networks.
Develops an AO framework with MM-SCA to maximize weighted sum rate in FD-FANS by optimizing time, power, antenna positions, and group selection under power, geometric, and SI constraints.
citing papers explorer
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How Many Independent Modes Does a Fluid Antenna Have? A Closed-Form Outage Analysis via Equivalent Degrees of Freedom
Fluid antenna systems have at most K*=2⌈W⌉+1 significant independent eigenmodes set by aperture size W, enabling EDoF and WIM closed-form outage approximations that match exact diversity order and never underestimate performance.
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Sparse Fluid Antenna Arrays: Continuous Position Design Beyond Classical DOF Limits
Fluid antenna systems with continuously optimized positions achieve linear DOF growth with aperture size D/λ and O(1/D^{2L}) CRB scaling for L sources, outperforming grid-constrained designs via a two-stage FAS-MUSIC algorithm.
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Hybrid Architecture Gets Fluid: A New Paradigm for Direction-of-arrival Estimation in 6G Networks
A fluid-antenna hybrid architecture for DOA estimation achieves near fully-digital accuracy while cutting RF hardware complexity and training overhead in 6G networks.
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Alternating Optimization for Joint Resource Allocation in Full-Duplex Multi-Sector Fluid Antenna-Enabled Near-Field Systems
Develops an AO framework with MM-SCA to maximize weighted sum rate in FD-FANS by optimizing time, power, antenna positions, and group selection under power, geometric, and SI constraints.