Optimal positions for massive movable antennas in near-field channels are the roots of polynomials solving specific ODEs, with a closed-form asymptotic solution that improves spectral efficiency.
Movable antenna enhanced wireless sensing via antenna position optimization
3 Pith papers cite this work. Polarity classification is still indexing.
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The CEBAP design optimizes slow movable antenna positions using cell-specific long-term APS to maximize ergodic system utility with reduced overhead.
Optimizes rotatable antenna pointing vectors in ISAC systems to maximize minimum echo power over a sensing region subject to user rate constraints, deriving a closed-form solution for the single-user far-field case and an alternating optimization algorithm for the general multi-user case.
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Near-Field Communication with Massive Movable Antennas: An Electrostatic Equilibrium Perspective
Optimal positions for massive movable antennas in near-field channels are the roots of polynomials solving specific ODEs, with a closed-form asymptotic solution that improves spectral efficiency.