IoBNT networks with blood-borne nanosensors deliver fresh biomarker data to external monitors within tens of seconds under realistic conditions, suiting tissue-level but not cellular-scale monitoring.
IEEE Communications Letters , issn =
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2representative citing papers
An open-sourced Unified Autonomy Stack fuses LiDAR, radar, vision and inertial data with sampling-based planning and control barrier functions to deliver resilient autonomy on aerial and ground robots in challenging real-world settings.
citing papers explorer
-
How Time-Sensitive are IoBNT Networks? An Age of Information Perspective for In-Body Monitoring
IoBNT networks with blood-borne nanosensors deliver fresh biomarker data to external monitors within tens of seconds under realistic conditions, suiting tissue-level but not cellular-scale monitoring.
-
The Unified Autonomy Stack: Toward a Blueprint for Generalizable Robot Autonomy
An open-sourced Unified Autonomy Stack fuses LiDAR, radar, vision and inertial data with sampling-based planning and control barrier functions to deliver resilient autonomy on aerial and ground robots in challenging real-world settings.