AIRBOT

Key Capabilities

Every panel inspected from above. Autonomous.

Solar Panel Inspection

Aerial thermal and visual inspection.

AI Anomaly Detection

On-device AI identifies thermal and visual anomalies in real time — online and offline modes.

Dual Thermal & Visual Imaging

Synchronized LWIR thermal and RGB imagery captured at multiple clearance altitudes.

Autonomous Navigation

Boustrophedon (zigzag) survey path at configurable altitudes and airspeeds.

ERP & Digital Twin Integration

Mission planning, automated reporting, and real-time anomaly relay integrated with the areg.ai platform.

24/7 Operation

Scheduled or on-demand missions with autonomous docking and recharging.

Security Surveillance

Perimeter patrol and site monitoring integrated into the inspection workflow.

In-Field Recharging

Docking station recharging supports extended and back-to-back missions without manual handling.

OPERATIONAL MODES

Autonomous Inspection

ERP dispatches a mission. AIRBOT navigates autonomously to the inspection zone, executes a synchronized thermal and visual survey at the configured altitude, detects anomalies on-device, and returns to the docking station on completion.

On-Demand Mission

Operator triggers an immediate aerial inspection via ERP or remote control. AIRBOT deploys to the specified zone and executes the full inspection sequence, relaying anomalies to the digital twin in real time.

Surveillance Patrol

Continuous perimeter and site patrol mode. AIRBOT follows a defined patrol route, monitoring for intrusion, thermal anomalies, and site conditions — returning to dock automatically for recharging between patrol cycles.

Operational Highlights

AI-Driven Anomaly Detection

FPGA/Jetson-based AI identifies thermal and visual anomalies in real time — online and offline modes ensure full operation without network connectivity. Every anomaly is geo-tagged and transmitted to the digital twin in under 2 seconds from detection.

End-to-End Reporting

Every inspection run generates an automated report linked directly to the ERP system and digital twin — traceable, structured, and zero manual logging. Anomalies are immediately visible on the digital twin and assigned for resolution through the ERP workflow.

Continuous Site Visibility

24/7 scheduled inspection and surveillance capability gives operators full aerial site visibility without deploying field personnel for routine checks. Scheduled missions, on-demand dispatch, and autonomous recharging keep AIRBOT continuously available.

Inspection Workflow

A fully autonomous inspection workflow from planning to actionable reporting.

01

Plan

Mission planned or triggered via ERP; AIRBOT confirmed ready at docking station

02

Launch

AIRBOT departs docking station; autonomous navigation to inspection zone

03

Survey

Boustrophedon zigzag survey at configured altitude; synchronized thermal + RGB capture

04

Detect

AI anomaly detection on-device; results geo-tagged and relayed to digital twin in <2 sec

05

Report

Automated report generated in ERP; AIRBOT returns to docking station for recharge

Aerial Inspection. Anywhere it's needed.

Designed for utility-scale and commercial solar plants, AIRBOT flies autonomous survey missions and captures synchronized thermal and visual imagery — detecting anomalies on-device and reporting straight to your digital twin, no operator required.

Synchronized LWIR thermal and RGB imaging captured at multiple clearance altitudes.

FPGA/Jetson on-device AI detects anomalies in real time — online and offline, geo-tagged to the digital twin.

8 km range and 25 min flight time, with autonomous docking-station recharging between missions.

Thermal + Visual

AI Anomaly Detection

Autonomous Survey

AIRBOT autonomous inspection drone hovering over a utility-scale solar installation at sunset

TARGET APPLICATIONS

Utility-Scale Solar Power Plants

Continuous autonomous aerial inspection across large solar installations — hotspot detection, structural checks, and vegetation monitoring across the full site, dispatched and reported through a single ERP command loop.

Commercial Solar Farms

Scheduled inspection programs that replace manual drone operator visits — reducing operational cost while improving anomaly detection consistency, frequency, and traceability.

Energy Infrastructure Surveillance

24/7 perimeter patrol and site surveillance for high-value energy assets — aerial threat detection and thermal monitoring running simultaneously with panel inspection missions.

Preventive Maintenance Programs

Autonomous aerial inspection integrated directly into ERP-driven maintenance workflows — every anomaly logged, tracked, and assigned for resolution without manual reporting or crew dispatching.

AIRBOT vs Traditional Methods

Capability	AIRBOT	Manual Drone Operator	No Aerial Inspection
Personnel Required	None	1–2 licensed pilots	N/A
Operating Schedule	24/7, auto-triggered	Daytime, scheduled visits	N/A
Anomaly Detection	On-device AI, real-time	Manual review post-flight	Ground-only
Reporting	Unified ERP report	Separate processing	Manual logging
Mission Consistency	Repeatable, configurable	Operator-dependent	N/A
Recharging	Autonomous docking	Manual battery swap	N/A
ERP Integration	Full digital twin	None	None

Integrated Operations Platform

All operations. One autonomous system.

All AregAI robots operate within a single unified command loop.

ERP Mission Planning

→

Autonomous Execution

→

Digital Twin Reporting

One system. Full-fleet visibility. Automated from dispatch to report.

Full Technical Datasheet

Get every spec.
Evaluate AIRBOT for your site.

Complete UAV specifications, inspection capabilities, sensor system details, and ERP integration — everything your engineering team needs to evaluate AIRBOT.

Request Full Datasheet

AIRBOT autonomous solar plant inspection UAV — quadcopter drone with dual thermal and visual imaging payload