A survey drone flies the route carrying thermal, gas and imaging sensors, while fixed ground sensors watch the rest of the site around the clock — so an anomaly gets flagged and re-checked while it's still small, not after it fails.
Book a PilotA solar park, a pipeline corridor or a transmission line spans far more ground than any inspection team can walk on a regular schedule. Manual survey rounds are slow, expensive and infrequent — and whatever happens between rounds goes unseen. By the time a fault shows up in output data or a routine walk-through, the underlying problem has usually been building for a while.
A site measured in hectares or kilometres can't be walked end to end often enough to catch developing problems early.
A hotspot, a leak or a fault typically surfaces in a periodic survey or a performance report, well after it started.
Scheduled walk-throughs and manual thermal scans consume crew time and equipment, cycle after cycle.
Once something looks off, sending a crew back out to confirm it takes hours, not the minutes a flagged reading needs.
A survey drone flies its route over a solar park carrying thermal, gas and imaging sensors, while fixed ground sensors watch the rest of the site. Watch the scenario catch a thermal hotspot on a solar string mid-flight — roughly 40 seconds before it would have crossed the alert threshold — then divert the drone to re-survey and confirm the flagged zone. This is the same engine and scenario running at demos.barquecontech.com, embedded live below.
From a sensor reading in the air or on the ground to a dispatched re-survey — the same path the live demo above runs on.
Thermal, gas & imaging readings along the flight route
Fixed sensors covering the site between flights
Aggregates airborne & ground readings in real time
Threshold checks flag anomalies as they trend
Flagged zone pushed for confirmation or re-survey
Live flight path, sensor overlay & event history
The building blocks we combine to fit how your site is actually laid out.
Flies a defined route carrying thermal, gas and imaging sensors, and can be diverted to re-survey a flagged zone.
Stationary units watching the parts of the site the drone isn't over at any given moment.
Brings airborne and ground readings together into one continuous data stream.
Live flight path, sensor overlay and a record of every flagged reading and re-survey.
Threshold-based rules that flag a developing anomaly and route it for confirmation.
Route planning and threshold tuning set up around your site's layout and asset types.
Sensing data is only useful where your team already works — we integrate rather than replace.
Tie flagged zones and sensor readings to the asset records and site maps your team already maintains.
Correlate airborne and ground sensor readings against the performance data your SCADA system already tracks.
Push flagged anomalies and re-survey confirmations to SMS, email or a channel your ops team already watches.
Concrete outcomes from watching a large or linear site continuously instead of on a walk-through schedule.
anomaly detection, catching a developing hotspot or leak while it's still small enough to fix cheaply.
manual survey effort, since routine ground and airborne coverage replaces some walk-through cycles.
coverage of the site at any given time, combining what the drone sees in flight with what ground sensors see continuously.
Directional outcomes based on what combined drone and ground sensing make visible — we'll size the specific case against your site and asset mix during a pilot.
Watch the drone and ground sensors flag and confirm an anomaly live, or tell us about your site and we'll shape a pilot around it.