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.
Integrated two-way radar backscatter communication and sensing with low-power iot tags
3 Pith papers cite this work. Polarity classification is still indexing.
years
2026 3verdicts
UNVERDICTED 3representative citing papers
L7FP synthesizes eBPF data planes to enforce the majority of L7 policies in the kernel for service meshes, delivering up to 6x lower median latency and 3x higher throughput than state-of-the-art proxies while falling back for unsupported policies.
ScaleAcross Explorer jointly optimizes three design dimensions for scale-across training and reports up to 64.62% speedups over production baselines and 37.59% over prior art in testbed and simulation experiments.
citing papers explorer
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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.
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Offloading L7 Policies to the Kernel
L7FP synthesizes eBPF data planes to enforce the majority of L7 policies in the kernel for service meshes, delivering up to 6x lower median latency and 3x higher throughput than state-of-the-art proxies while falling back for unsupported policies.
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ScaleAcross Explorer: Exploring Communication Optimization for Scale-Across AI Model Training
ScaleAcross Explorer jointly optimizes three design dimensions for scale-across training and reports up to 64.62% speedups over production baselines and 37.59% over prior art in testbed and simulation experiments.