Hardware designed for the wet edge of the real world.
MosqAI hardware is imagined as field infrastructure, not a lab accessory. Every trap is part sensor, part observation post, part autonomous relay point. The design language emphasizes durability, maintainability, and operational signal quality under hot, humid, and inconsistent conditions.
The hardware strategy balances ecological relevance, power autonomy, serviceability, and discreet deployment. MosqAI traps should feel plausible in a dense city, a resort perimeter, a mangrove edge, or an agricultural water corridor.
- Solar-powered for infrastructure-light deployments
- Remote firmware updates for distributed fleets
- GPS-tagged devices with uptime and health telemetry
Solar Sentinel Mast
A modular support structure built for flood edges, urban perimeters, and solar-first deployment zones where power stability matters more than aesthetics.
Optical Capture Chamber
A low-light imaging compartment designed to preserve useful species features while reducing the noise typical of field conditions.
Microclimate Telemetry Pack
Temperature, humidity, and environmental variability are tracked continuously so mosquito activity can be interpreted against the habitat, not in isolation.
Acoustic Wingbeat Array
A complementary signal path that helps identify motion and species-relevant patterns where image quality alone is insufficient.
Hardware that supports coverage strategy, not just collection.
The strongest trap deployment is not the one with the most units. It is the one with the clearest logic. MosqAI hardware is intended to be placed where it reveals habitat transitions, population corridors, post-rain breeding risk, and treatment blind spots.
- Urban districts: street canyons, water retention points, and public perimeter zones
- Resorts: guest pathways, service corridors, gardens, and water features
- Agriculture: irrigation edges, worker zones, and drainage infrastructure