Service
Autonomous Mission Setup
Configure repeatable missions for inspection, patrol, land monitoring, and route-based field operations.
Best for: Inspection teams, security sites, farms, construction sites, and research labs.
Solutions
Aeroniti brings mission design, drone integration, AI perception, ground control, sensors, safety, and operator workflows together for real field operations.
What we deliver
Choose a focused engineering engagement or combine services into a complete autonomous mission workflow.
Service
Configure repeatable missions for inspection, patrol, land monitoring, and route-based field operations.
Best for: Inspection teams, security sites, farms, construction sites, and research labs.
Service
Build or upgrade drone platforms around Pixhawk, ArduPilot, telemetry, cameras, onboard compute, and payload hardware.
Best for: Teams that need a serious configured UAV instead of a hobby build.
Service
Connect cameras, depth sensors, thermal input, LiDAR, and dashboards into useful detection and decision workflows.
Best for: Security, industrial inspection, rescue, smart infrastructure, and enterprise automation.
Service
Prototype object pickup, payload drop, retrieval, sample movement, and emergency supply workflows under supervision.
Best for: Logistics pilots, emergency teams, field operators, and controlled-site delivery trials.
Service
Prepare repeatable field monitoring missions with route planning, visual records, thermal/depth options, and reporting.
Best for: Farms, landowners, agritech pilots, and site monitoring teams.
Service
Create inspection-ready video workflows for roofs, facilities, construction progress, industrial sites, and difficult access zones.
Best for: Inspection providers, construction teams, real estate, and industrial facility teams.
Where it works
Each solution is configured around the operating environment, mission risk, sensor requirements, and level of human supervision.
Pain point: Large sites have blind spots, false alarms, and slow incident verification.
Aeroniti solution: Autonomous patrol planning, thermal/RGB detection, intruder alerts, and operator review workflows.
Example mission: Run scheduled perimeter patrols and send verified alerts to a control room.
Pain point: Teams need rapid visibility across difficult terrain, low light, smoke, or disaster zones.
Aeroniti solution: Thermal search, route coverage, human detection, supply drop support, and incident mapping.
Example mission: Scan a flood edge, detect heat signatures, and guide responders to priority locations.
Pain point: Inspection teams lose time on manual checks, risky access, and disconnected reports.
Aeroniti solution: Mission routes, sensor capture, anomaly detection, telemetry logs, and dashboard-ready evidence.
Example mission: Inspect a substation, structure, pipeline, roof, or plant area with repeatable flight paths.
Pain point: Large land assets need frequent monitoring without heavy manual scouting.
Aeroniti solution: Route planning, crop or terrain imagery, anomaly detection, thermal checks, and field summaries.
Example mission: Map crop stress, detect unusual heat, and generate a repeatable monitoring route.
Pain point: Field sites change quickly and need safer visibility across equipment, zones, and terrain.
Aeroniti solution: 3D mission planning, site progress monitoring, geofence-aware operation, and remote dashboards.
Example mission: Survey a site boundary, inspect stockpile zones, and flag unsafe access areas.
Pain point: Response teams need fast situational awareness when roads, visibility, and access are limited.
Aeroniti solution: Thermal search, payload drops, map overlays, mission replay, and remote command views.
Example mission: Deliver a small emergency payload and scan a blocked area before ground entry.
Technology foundation
A modular stack connects perception, onboard intelligence, communication, mission planning, and safety-critical execution.
Object, person, intruder, anomaly, heat signature, and mission-relevant event detection.
Depth, LiDAR, thermal, RGB, telemetry, and operational context combined into mission awareness.
Onboard AI compute for low-latency decisions in field conditions and remote operations.
Telemetry and command exchange between ground control, companion computer, and flight controller.
Multi-layer routes, geofences, map layers, mission stages, and autonomous execution plans.
AI requests actions while the flight controller manages stability, failsafes, RTL, geofence, and pilot override.
Safety architecture
The operator remains in command while intelligence and safety-critical flight execution stay clearly separated.
Sensors feed the onboard AI layer for perception and decision logic.
MAVLink commands go to the flight controller, which remains responsible for safe flight execution.
Request demo
Share the environment, mission, payload, sensor needs, operating limits, and desired outcome. Aeroniti can define a focused path from pilot to deployment.