Develops geometry-aware uncertainty sets for eavesdropper errors and an iterative algorithm optimizing PA positions, beamforming, and AN to achieve 4.7 dB higher sum rate with better secrecy than fixed-antenna systems.
Modeling and beam- forming optimization for pinching-antenna systems
3 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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A dual-scale deployment framework is proposed for pinching antenna systems to jointly optimize coarse and fine scale PA positions along with precoding and radiation power for energy efficiency maximization.
Pinching-antenna systems with in-waveguide attenuation achieve superior secrecy outage probability and ergodic secrecy capacity compared to conventional fixed-antenna systems.
citing papers explorer
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Robust and Secure Blockage-Aware Pinching Antenna-assisted Wireless Communication
Develops geometry-aware uncertainty sets for eavesdropper errors and an iterative algorithm optimizing PA positions, beamforming, and AN to achieve 4.7 dB higher sum rate with better secrecy than fixed-antenna systems.
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Dual-Scale Antenna Deployment for Pinching Antenna Systems
A dual-scale deployment framework is proposed for pinching antenna systems to jointly optimize coarse and fine scale PA positions along with precoding and radiation power for energy efficiency maximization.
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Physical Layer Security Performance of Pinching-Antenna Systems With In-Waveguide Attenuation
Pinching-antenna systems with in-waveguide attenuation achieve superior secrecy outage probability and ergodic secrecy capacity compared to conventional fixed-antenna systems.