Biometric Intelligence Platform
Signals from your squad become intelligence. Real-time physiological monitoring built for the demands of tactical operations — from environmental threats to cognitive readiness.
16
Active Monitors
4
Mission Categories
24/7
Real-time Intel
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Architecture
Signals from your squad become intelligence.
Layer 01
Non-intrusive, rugged biometric wearables continuously capture physiological signals — heart rate, temperature, movement, and environmental data — even in the most demanding field conditions.
Layer 02
The AI core processes incoming streams in real-time, cross-referencing multi-modal signals to detect anomalies, predict risks, and generate mission-critical readiness assessments before threats escalate.
Layer 03
Command-level situational awareness. Commanders and medical teams see real-time unit readiness, flagged personnel, and automated alerts — with a single dashboard that covers the entire squad.
Capabilities
Across four mission-critical categories, HaloForce monitors what matters.
Continuous core temperature tracking with WBGT-based heat stress index. Alerts commanders before heat casualties occur.
Skin temperature + wind chill correlation detects early-stage frostbite indicators during cold weather operations.
Sweat rate estimation + physiological markers identify dehydration risk before performance degradation occurs in the field.
SpO₂ tracking combined with acclimatization models detects altitude sickness risk during high-altitude operations.
Accelerometer-based impact detection combined with post-event physiological response patterns flags potential traumatic injury immediately.
Hemodynamic parameter monitoring detects hypovolemic or cardiogenic shock patterns, enabling early triage prioritization in the field.
When critical thresholds are crossed, the system autonomously pushes alerts to squad medics and command — no manual intervention required.
On alert trigger, precise GPS coordinates are transmitted alongside biometric data — giving medics the exact location of the downed operator.
HRV + reaction latency + sleep architecture models estimate real-time cognitive capacity and alert when decision-making is compromised.
Chronic vs acute stress differentiation through sympathetic nervous system analysis reveals operational stress load over time.
48-hour sleep tracking identifies fragmented sleep patterns that degrade reaction time and tactical judgment in the field.
Long-term HRV trends and autonomic nervous system balance scores reveal cumulative psychological strain before it becomes a clinical concern.
Post-incident physiological fingerprints are compared against trauma response baselines to detect acute stress reaction and psychiatric shock.
Persistent autonomic dysregulation patterns are flagged for clinical review — enabling early intervention before post-traumatic stress becomes entrenched.
ACWR (acute-to-chronic workload ratio) and session RPE tracking balance training intensity to minimize injury risk during preparation phases.
Multi-factor models combining sleep debt, workload spikes, and musculoskeletal stress flag elevated soft-tissue injury probability — giving commanders time to modify load before injury occurs (Gabbett TJ, 2016, Br J Sports Med; Buchheit, 2014, Sports Med).
HRV-based recovery scoring and adaptive rest protocols ensure personnel return to full physiological readiness before the next deployment window.
A composite 0–100 score integrating all physiological domains gives commanders an instant, objective measure of each operator's mission capability.
Command Intelligence
HaloSight gives commanders and medical teams a real-time operational picture. Every operator, every signal, every risk — visible at a glance.
6 of 8 operators fully ready
Operators flagged
Operator flagged
No heat threats
Elevated operator
The Challenge
Fatigue, heat stress, and psychological strain degrade operational effectiveness — yet they remain invisible to traditional field monitoring. The data below comes from military research.
40%
Army Aviators
of Army aviators reported fatigue as a "widespread problem" affecting mission performance (Caldwell et al., 2018; Aerosp Med Hum Perform; PMID 29673432).
20–30%
Cognitive Performance Decline
decline in cognitive performance, reaction time, and decision accuracy in sleep-deprived service members under operational conditions (Belenky et al., 2003; J Sleep Res). Fatigue was identified as a contributing factor in multiple fatal incidents including the 2017 USS Fitzgerald and USS John S. McCain collisions (GAO-24-105917, 2024).
82.6%
High-Tempo Operations
of military personnel felt sleep-deprived "at least occasionally" during high operational tempo — with most reporting no formal intervention (Miller & Shattuck, 2011; Mil Med; PMID 21218294; n=49 US Army officers).
Sources: Caldwell et al. (2018) PMID 29673432 · Belenky et al. (2003) J Sleep Res · GAO-24-105917 (2024) · Miller & Shattuck (2011) PMID 21218294
FAQ
HaloForce is designed to integrate with a range of rugged military-grade and commercial wearable sensors. Current integrations include chest-strap HRV monitors, continuous temperature patches, GPS devices, and environmental sensors. Custom hardware integrations are available for OEM partners.
The HaloForce edge processing module runs local inference on-device, maintaining readiness scoring and alert generation without cloud connectivity. Data is synced to HaloSight when network access is restored, with full audit trail preservation.
All data is encrypted at rest (AES-256) and in transit (TLS 1.3). The system supports deployment in air-gapped environments. Data sovereignty configurations are available for national defense customers requiring on-premise processing.
Standard pilot deployments can be operational within 2 weeks of hardware provisioning. HaloSight dashboards are configured for your unit structure during onboarding. Full command integration including existing C2 system connectors is available within 30–60 days depending on scope.
16 active monitoring features across 4 mission-critical categories. Real-time biometric intelligence for commanders and medical teams. Seamlessly integrated from wearable to HaloSight dashboard.
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