Armstrong is the first mmWave full-duplex backscatter architecture delivering 20x longer range and over 100x lower cost than prior systems via a 7.7 mW regenerative amplifier and -60 dBm rectifier.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
citation-role summary
background 1
citation-polarity summary
years
2026 3verdicts
UNVERDICTED 3roles
background 1polarities
background 1representative citing papers
TIDAL recovers temporal phase signals from LLM-derived semantics of provisioning metadata to enable complementary CVD placement, reducing overload frequency by 79.1% on production traces.
A new QoS-QoE Translation dataset is constructed from multimedia literature and fine-tuned LLMs demonstrate strong performance on bidirectional continuous and discrete QoS-QoE predictions.
citing papers explorer
-
An ISAC-ready Full-Duplex Backscatter Architecture for the mmWave IoT
Armstrong is the first mmWave full-duplex backscatter architecture delivering 20x longer range and over 100x lower cost than prior systems via a 7.7 mW regenerative amplifier and -60 dBm rectifier.
-
TIDAL: Recovering Temporal Phase for Cloud Block Storage Placement from LLM-Derived Semantics
TIDAL recovers temporal phase signals from LLM-derived semantics of provisioning metadata to enable complementary CVD placement, reducing overload frequency by 79.1% on production traces.
-
QoS-QoE Translation with Large Language Model
A new QoS-QoE Translation dataset is constructed from multimedia literature and fine-tuned LLMs demonstrate strong performance on bidirectional continuous and discrete QoS-QoE predictions.