LatencyScope models 5G RAN latency sources across the protocol stack and provides a configuration analyzer that identifies settings meeting latency-reliability targets, validated on open-source testbeds and commercial network measurements where it outperforms prior models and simulators.
Joint Optimization of Phase Retrieval and Forward Error Correcting for Direct Detection Receiver,
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2025 2verdicts
UNVERDICTED 2representative citing papers
Experimental demonstration of self-coherent 32 Gbaud QAM reception over fiber distances using ROSS photonic accelerator and direct detection, with reported power savings potential.
citing papers explorer
-
LatencyScope: A System-Level Mathematical Framework for 5G RAN Latency
LatencyScope models 5G RAN latency sources across the protocol stack and provides a configuration analyzer that identifies settings meeting latency-reliability targets, validated on open-source testbeds and commercial network measurements where it outperforms prior models and simulators.
-
Experimental Analysis of a Self-Coherent M-QAM Receiver by Means of Recurrent Optical Spectrum Slicing and Direct Detection
Experimental demonstration of self-coherent 32 Gbaud QAM reception over fiber distances using ROSS photonic accelerator and direct detection, with reported power savings potential.