Sentinel Capability

Thermal Imaging

Own The Edge

640×512 thermal resolution detects heat signatures in complete darkness, through smoke, and in adverse weather. Identify intruders hiding in shadows, detect equipment overheating, and monitor for fire hazards across your facility.

Thermal Imaging

Missions

Night Operations

Maintain full surveillance capability in complete darkness without requiring external lighting that could alert intruders.

Concealment Defeat

Detect individuals hiding in shadows, vegetation, or behind partial cover where visual cameras would fail.

Equipment Monitoring

Identify overheating machinery, electrical faults, and fire hazards before they become critical failures.

640×512Thermal Resolution

High-resolution thermal sensor provides detailed imagery for accurate threat identification.

500m+Detection Range

Identify human-sized heat signatures at distances exceeding 500 meters in optimal conditions.

-40°C to +550°CTemperature Range

Wide measurement range covers everything from cold environments to industrial heat sources.

30HzFrame Rate

Smooth thermal video enables tracking of fast-moving targets without motion blur.

Sensor Technology[01]

High-Resolution Thermal

640×512 resolution thermal sensor captures detailed heat signatures. Identify individuals at distances over 500 meters, even in complete darkness or adverse weather conditions.

High-Resolution Thermal
Sensor Technology[02]

Dual-Sensor Fusion

Thermal and 4K visual cameras work together, providing complementary data. AI fuses both streams for enhanced detection accuracy and reduced false alarms.

Dual-Sensor Fusion
Sensor Technology[03]

Temperature Mapping

Beyond detection, measure actual temperatures across the scene. Monitor equipment health, identify hot spots, and detect fire risks before they escalate.

Temperature Mapping
Sensor Technology[04]

All-Weather Performance

Thermal imaging penetrates fog, smoke, dust, and light rain where visual cameras fail. Maintain surveillance capability in conditions that would blind traditional systems.