Eliminate dangerous manual inspections of power lines, solar farms, and wind turbines. Drone-based thermography and AI analytics deliver predictive maintenance insights at a fraction of the cost.
Energy infrastructure across Southeast Asia is ageing, expanding, and increasingly difficult to inspect safely. Power transmission towers, solar panel arrays, wind turbine blades, and pipeline corridors span enormous geographic areas and often sit in locations that are hazardous for human access. Traditional inspection methods — climbing towers, walking solar arrays, or deploying rope access teams — are slow, expensive, and inherently dangerous.
Solar farms in the region face a specific challenge: identifying individual panel defects (hotspots, microcracks, junction box failures) across installations that may cover hundreds of hectares. Manual thermographic inspection of each panel is impractical at scale. Without regular inspection, degraded panels reduce overall system output and can create fire hazards.
Pipeline operators face similar challenges monitoring rights-of-way for encroachment, vegetation growth, ground movement, and third-party interference. Drones equipped with thermal and visual sensors can patrol hundreds of kilometres of pipeline corridor in a single day — delivering actionable data that keeps maintenance teams ahead of failures.
Thermal and visual inspection of solar panels, transmission towers, wind turbine blades, and substations — without scaffolding, climbing, or outages.
Automated defect classification, hotspot severity ranking, and trend analysis across inspection cycles — enabling data-driven maintenance prioritisation.
Build an internal drone inspection capability — platform selection, sensor calibration, flight planning protocols, and integration with your asset management system.
Thermal drone cameras scan entire solar arrays to identify hotspots, bypass diodes, and string failures. Inspect thousands of panels per hour with georeferenced defect maps that guide maintenance crews directly to problem panels.
Fly along high-voltage transmission corridors to inspect insulators, conductors, hardware, and vegetation encroachment. Capture high-resolution imagery and thermal data without climbing or outage requirements.
Close-range drone inspection of turbine blades detects leading-edge erosion, lightning damage, cracks, and delamination. Eliminate the need for rope access teams and reduce turbine downtime during inspection.
Regular aerial patrols of pipeline rights-of-way detect encroachment, vegetation growth, ground subsidence, and third-party activity. Thermal sensors identify leak indicators before they escalate into environmental incidents.
Eliminate the need for human climbers on transmission towers, wind turbines, and elevated structures. Drones capture the same data from a safe distance.
Cover five times more infrastructure per day compared to manual inspection teams — with consistent image quality and complete coverage.
AI analytics track defect progression across inspection cycles, forecasting when components will need replacement and enabling proactive maintenance scheduling.
Share your asset inventory — solar capacity, tower count, pipeline kilometres — and we will design an inspection programme that maximises uptime and minimises risk.