From sensing to intelligence, continuously
Careverse operates as a continuous pipeline: physiological signals are captured at the body, transmitted through interference-resistant channels, encoded for secure transport, delivered via optical links, and transformed into actionable clinical intelligence. Here is how each stage works.
Physiological Signal Capture
Wearable or on-body sensor nodes are deployed on patients to capture physiological parameters continuously. These sensors measure cardiac electrical signals, skin temperature, neural activity patterns, and movement or behavioral indicators.
Sensors operate at minimal transmission power, reducing RF exposure for patients in continuous monitoring scenarios. Multiple sensor nodes can be deployed simultaneously on a single patient, each capturing a different physiological modality. The sensing layer is designed for persistent operation — not intermittent snapshots.
Patient → [Cardiac Sensor] [Thermal Sensor] [Neural Sensor] [Motion Sensor] → Raw Physiological Signals
Ultra-Wideband Local Transmission
Raw physiological data from body-area sensors is transmitted to nearby control nodes using Ultra-Wideband (UWB) communication. UWB provides precise, low-power short-range data transfer that is inherently resistant to electromagnetic interference.
In dense clinical environments filled with medical equipment, Wi-Fi networks, and telemetry systems, traditional wireless communication introduces interference risk. UWB operates across a wide frequency band with very low power spectral density, enabling coexistence with existing hospital infrastructure without causing or suffering from interference.
Sensor Nodes → [UWB Short-Range Links] → Control Node
Signal Encoding & Multiplexing
Control nodes receive multiple sensor data streams and encode them using spectral amplitude coding. This optical encoding mechanism allows multiple independent data channels to be transmitted simultaneously over a single optical link without cross-interference.
Spectral amplitude coding assigns distinct spectral patterns to each data channel. This means that physiological data from multiple patients or multiple sensor types can share the same optical transmission infrastructure while maintaining complete channel isolation. The approach scales naturally — adding more channels does not degrade existing ones.
Control Node → [Spectral Encoding] → Multiple Encoded Channels → [Multiplexing] → Combined Optical Signal
Free Space Optical Transmission
Encoded and multiplexed data is transported across the facility using Free Space Optical (FSO) communication links. FSO uses light to carry data through air, providing high bandwidth without contributing to electromagnetic spectrum congestion.
Optical transmission offers several structural advantages for healthcare environments. The signal cannot be intercepted without physical line-of-sight access, providing inherent transmission security at the physical layer. FSO links deliver data rates that exceed traditional wireless channels, supporting rich multi-patient physiological data streams. Deployment across healthcare facilities is efficient, requiring optical transceivers rather than extensive cabling infrastructure.
Optical Transmitter → [Free Space Optical Link] → Optical Receiver → Decoding & Demultiplexing
Analytics, Monitoring & Care Coordination
Decoded physiological data streams feed into the intelligence layer, where analytics engines, monitoring dashboards, and alert systems transform raw signals into actionable clinical information.
Clinical teams access continuous monitoring dashboards showing real-time and historical physiological data across their patient population. Configurable alert thresholds notify care providers when physiological parameters deviate from expected ranges. The intelligence layer supports remote access, enabling care coordination across locations and clinical teams. Careverse provides the infrastructure enabling this intelligence — it does not replace clinical judgment or provide diagnostic determinations.
Decoded Data → [Analytics Engine] → Dashboards + Alerts + Care Coordination
End-to-end: one continuous system
These five stages operate as a single, integrated pipeline — not as separate products bolted together. Data flows continuously from body-area sensors to clinical dashboards without manual intervention, aggregation delays, or system handoffs. This is what infrastructure-grade care monitoring looks like.
Continuous pipeline from physiological signals to actionable care intelligence. No manual intervention. No system handoffs. Infrastructure-grade persistence.
See the system in operation
Schedule a technical demonstration to observe continuous data flow from sensing to intelligence in a live environment.