The paper derives closed-form and integral expressions for outage probability and achievable rate in pinching antenna systems, concluding that NOMA provides higher spectral efficiency at high SNR while WDMA is more reliable at low to moderate SNR but exhibits an outage floor.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Range characterizations are established for the k-weighted conical Radon transform and Compton transform by factoring into divergent beam and spherical section transforms and combining with prior consistency conditions.
citing papers explorer
-
Downlink Performance Analysis of Pinching Antenna Systems: WDMA or NOMA?
The paper derives closed-form and integral expressions for outage probability and achievable rate in pinching antenna systems, concluding that NOMA provides higher spectral efficiency at high SNR while WDMA is more reliable at low to moderate SNR but exhibits an outage floor.
-
Range characterization of the weighted divergent beam and cone integral transforms
Range characterizations are established for the k-weighted conical Radon transform and Compton transform by factoring into divergent beam and spherical section transforms and combining with prior consistency conditions.