Infrastructure inspection is about rapidly assessing the condition and vulnerabilities of critical defensive assets – airstrips, pipelines, power and command posts, supply routes, and similar – to support strategic decisions. That means quickly detecting mission-specific risks to prevent potential casualties.
That’s where remotely controlled FPV critical infrastructure inspections and surveillance are entering the game.
But still, what about:
How can you collect accurate insight while using already procured FPV drones?
Fly with predictable handling – optimized control will compensate for airframe and payload for consistency.
Keep your familiar workflow – Betaflight and ArduPilot support will ensure you use the controls you know.
Watch steady, readable streams – software stabilization will compensate for tilt and rotation during flights.
Hold stable, informative hover – visual odometry is used to maintain locked position and altitude.
React instantly under pressure – software optimization and multithreading will ensure low-latency control.
Don’t worry about retrofits – computer vision will extract additional information from the integrated camera.
Work despite weather changes – poor light, strong wind, and other nature’s forces won’t blind your operation.
Know your exact location – visual odometry is used to compare the frames and calculate accurate location.
to target working range
success ratio rate with wind up to 8-12 m/s
success ratio rate with targets at a speed of up to 60 km/h
wind resistance
drift position hold
pitch/roll angle support
boot time
working temperature range
Quickly verify approach conditions for rapid go/no-go decisions by obtaining stabilized imagery and identifying fallen trees, vegetation overgrowth, washed-out/cratered roads, debris, wreckage, and other crossing barriers.
Accurately flag disturbed surfaces for instant threat evidence by comparing updated baselines and detecting enemy interdiction before action.
Automatically recognize blast damage, unexploded ordnance, and other post-strike damage for strategizing.
Automatically spotlight sagging supports, displaced panels, and other critical misalignment for decision-making.
Every solution is validated under fire on the actual battlefield, where dampening and chaos define operations. From discovery, 3D modeling, rapid prototyping, and ruggedization to development and validation in combat – we cover every stage to deliver tactical advantage.
By leveraging AI & CV techniques, our autonomous UAV modules are pushing beyond today’s GNSS limitations. Neither spoofing or jamming can’t stop mission success.
Among others, we deliver:
For over two years, we have been partnering with manufacturers of drones and specialized mission computers. We know the value of following NATO standards, NDAA, STANAG, and other industry guides, and understand MSP and MAVLink protocols.
What’s more, we build:
We stack 20+ specialists who have proven knowledge and experience in both UAV excellence and engineering. Our goal – to secure mission success by automating dangerous tasks.
In particular, we master:
The modules we developed are already actively applied in combat and deliver critical advantage to soldiers. They’re built to withstand common countermeasures of enemies and harsh weather conditions with resilience.
Our solutions are showing: