Keep going when signals are lost
Attach resilience
GNSS jamming & spoofing, EW interference, comms blackouts, sensor dropouts, and other mission obstacles – the challenges of warfare have transformed, so must the ways troops follow to overcome these challenges. Mission abortion at least, the loss of assets, intelligence gaps, high risk to soldiers who re-attempt the tasks – there is too much at stake to refuse a change.
A redesign or retrofit only slows you down – you need software-first fallback, not another expensive aircraft.
With plug-and-play companion computers, your soldiers can stay on course despite disruptions and diversions. Unimpeded navigation, targeting assistance, stable hover, and autonomous attack capabilities when needed – all without the need to replace on-hand drones.
Accurate navigation even when GNSS drops, with adaptive mission planning and smart obstacle avoidance.
Targets neutralized even under EW impact – an autonomous attack feature that strikes without missing.
Freeze-framing battlefields – locked hovering for hands-off, long-stare analysis.
More insight, less exposure – secure observation of bridges, roads, pipelines, and other critical objects.
Control algorithms that transform already procured UAV platforms into autonomous, mission-ready drones. Standby, following, patrolling, mapping, and other specific behaviors in contested real-world environments.
Advanced interfaces that make complex maneuvers feel intuitive and manageable, no matter the experience. Greater confidence, less errors being made under stress, faster decision-making – all without extra training.
On-board algorithms for autonomous UAV platforms to see, detect, track, and decide – no cloud, no delay. Jamming, spoofing, weather changes, signal disruption, and other common limitations are not your problem.
Battle-ready firmware for constrained UAV hardware – the low-level, real-time code to keep missions going. Deterministic control, sensor fusion, drivers, watchdogs, and more already handled to make flights reliable.
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 during flight and hover
drift position hold
pitch/roll angle support
boot time before flight
working temperature range
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:
Military drone AI & CV algorithms are changing the battleground – the future is autonomous.
For over two years, we have been partnering with manufacturers of drones and specialized mission computers. We know the value of following NATO standards (we deliver NATO codified (NSN) products), NDAA, STANAG, and other industry guides, and understand MSP and MAVLink protocols.
What’s more, we build:
Military drone manufacturers build the aircrafts for battlefields, we deliver tactical advantage.
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:
Abto Software – a trusted military drone software development company resolving defence challenges.
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:
Abto Software – we deliver advanced technology for autonomous military operations, not simulations.