The work develops an analytical framework for block-error rate and goodput in RIS-assisted finite blocklength communications that accounts for RIS thermal noise, showing that neglecting it overestimates reliability especially as the number of elements grows.
Performance analysis of passive/active RIS aided wireless-powered IoT network with nonlinear energy harves ting,
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Passive RIS elements produce thermal noise that substantially affects outage probability and throughput, requiring revised analytical models.
citing papers explorer
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Rethinking Passive RIS: Finite Blocklength Reliability Analysis Under Thermal Noise
The work develops an analytical framework for block-error rate and goodput in RIS-assisted finite blocklength communications that accounts for RIS thermal noise, showing that neglecting it overestimates reliability especially as the number of elements grows.
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Passive RIS Is Not Silent: Revisiting Performance Limits Under Thermal Noise
Passive RIS elements produce thermal noise that substantially affects outage probability and throughput, requiring revised analytical models.