Bringing Physiological Awareness to Every Vehicle Cabin
Our mission to make camera-based driver vital signs a standard layer of automotive safety, enabling fatigue prevention at scale
Why We Built Vital Signs for the Automotive Cabin
Driver fatigue remains one of the leading contributors to road incidents worldwide, yet most vehicle safety systems still rely exclusively on behavioral cues like gaze direction and eyelid closure to assess driver state. These methods detect symptoms after they appear, missing the physiological changes that precede impairment by critical seconds or minutes.
We recognized that the cabin camera already present in modern DMS architectures captures far more information than is currently utilized. Beneath the visible behavior lies a rich physiological signal — blood volume pulse, heart rate variability, autonomic nervous system state — accessible through remote photoplethysmography without any additional hardware.
Our engineering team set out to make that physiological data available to automotive OEMs, Tier-1 suppliers, and fleet operators through a production-grade SDK optimized for the unique constraints of vehicle computing environments. The result is a software layer that transforms an existing camera into a continuous vital signs monitor.
Today, our technology adds a physiological dimension to driver monitoring programs across passenger vehicles and commercial fleets, helping the automotive industry move from reactive incident response toward proactive driver wellness management.
Our Automotive Safety Mission
To make camera-based physiological monitoring a standard component of every driver monitoring system, enabling the automotive industry to detect fatigue and impairment through vital signs rather than waiting for dangerous behavioral symptoms. We believe every vehicle cabin should understand the physiological state of its driver.
Principles of Automotive-Grade Engineering
Safety Through Proactive Detection
We engineer for the seconds that matter most — the interval between physiological fatigue onset and visible impairment. Earlier detection means earlier intervention and safer outcomes for drivers and everyone sharing the road.
Software-Only Architecture
We eliminate hardware barriers to adoption by delivering vital signs through the cameras already in the vehicle. No additional sensors, no BOM impact, no mechanical integration complexity — just software that unlocks new capability from existing infrastructure.
Production-Grade Reliability
Automotive programs demand consistency across millions of operating hours, extreme temperatures, and unpredictable conditions. Every algorithm is designed and tested for the reliability standards that vehicle safety systems require.
Privacy by Architecture
All physiological processing runs on-device within the vehicle ECU. No facial images or raw video leave the cabin. Driver vital signs data stays local unless the fleet operator explicitly configures telemetry output, ensuring privacy is structural rather than policy-dependent.
Learn More About QuickScanVitals
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