AI/CV add-on for stable FPV hover without signal

A lightweight companion computer that allows FPV drones to autonomously maintain position and altitude. Jamming, spoofing, or loss of signal won’t block FPV drones from completing important missions in combat.

FPV lock-In for challenging, GNSS-denied environments that works despite countermeasures and tempest.

By combining computer vision, visual odometry, and onboard IMU readings, the module will retain the hover. All without manual correction.

Abto Software – with expertise in applying AI & CV techniques – is turning UAVs and FPV drones into platforms that remain fully operational even when satellites disappoint.

FPV position hold module: less effort, more control

FPV autonomy even under electronic warfare

In modern conflict zones, jamming, spoofing, and unpredictable weather conditions can interrupt FPV missions. But mounting our module, UAV operators can maintain exact position and altitude even when losing coverage.

A smart FPV drone stabilization system to finish the mission you started.

FPV extension that frees the pilot

The constant stick dragging is labor-intense, in particular in long-range FPV missions that require stable hover. When using our module, UAV operators can lock the current position and altitude while maintaining yaw control.

A fallback FPV drone stabilization software to offload manual routines and focus on priorities.

FPV position hold add-on: how does it work?

The module is a companion computer for autonomous FPV hovering even within GNSS-stripped environments. The solution has been specifically designed to fight GPS jamming and spoofing, typically applied on battlefields and restricting the pilot’s FPV maneuvers.

The flow is simple:

Mount and connect module

Activate autonomous FPV hover

Observe location

Adjust yaw when needed

AI-backed support: hold skies against interference

Contact for more details

FPV drone position hold: practical application

Reconnaissance operations

With stable FPV hover, you gather hard-to-get footage, which empowers further visualization and mapping. Smart vision for pilots, even without GNSS connection.

Surveillance operations

By locking FPV hovering, you overwatch operating bases, troop relocation, hostile installations, logistic routes. More insight in combat, no matter the conditions.

Soldier search & rescue

Position and altitude lock-in to confirm soldier location even within EW- and weather-affected environments. Detect and extract faster.

Target acquisition & tracking

Evasion and escape aren’t an issue – strategically extend your platform with autonomous last-mile navigation. Precise and steady pursuit in cases where operators lose orientation.

FPV drone stabilization algorithm: key features

Locked position and altitude with no GNSS coverage

Yaw adjustment while maintaining FPV hover

Image stabilization

Angle stabilization

Integration with Betaflight via MSP protocol

Integration with ArduPilot via MAVLink protocol

Plug-and-play compatibility (7 inches and larger)

Easy adaptability to different firmware and hardware configurations

AI-based hovering: stable flight without signal

Let’s discuss your needs

FPV drone stability ensuring mission success

Greater range of action

A stabilized FPV position and altitude despite disconnect.

Resilient operations

An autonomous FPV hover in shifting daylight conditions and tempest.

Less routine, more focus

No constant manual correction that overwhelms your operators.

Seamless integration

No changes in hardware – just plug and go.

FPV drone stability module: key specifications

Module weight	200 grams
FPV compatibility	Compatible with drones of 7 inches and above
Remote control jamming resistance	Once autonomous position hold is enabled, the drone will maintain stable hover no matter remote control signal integrity
Wind resistance	Up to 12 m/s (may depend on drone platform capability)
Hold accuracy	Stable position with an up to 8° drift in moderate wind conditions
Tilt tolerance	Supports pitch/roll angles of up to 25° tilt
Core components	ARM-based SBC with custom Linux OS USB-drive with encrypted software
Data processing	Computer vision real-time processing IMU sensor fusion on-boar
Image stabilization	Software-based stabilization to compensate for movement
Working range	30-500 meters to target

Why us

AI & CV innovation for military

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:

GNSS-independent optical UAV navigation

EW-insensitive last-mile FPV navigation

Stabilized position and altitude FPV hover

Target recognition and tracking FPV features

Our solutions in combat

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:

Temperature range from -20°C to +50°C

Wind resistance up to 12 m/s

Stable position with an up to 8° drift

Support for angles of up to 25° tilt

Domain expertise and adherence

For over two years, we have been partnering with manufacturers of drones and specialized mission computers. We know the value of following NDAA and STANAG requirements and understand MSP and MAVLink protocols.

What’s more, we build:

Field-ready enclosures

User-centric interfaces

Electrical components

Circuit boards

Best-in-class talent for defense

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:

Control theory algorithms

Automatic payload calibration

Adaptive mission planning

Smart obstacle avoidance

Contact us

Tell your idea, request a quote or ask us a question

AI-powered module for autonomous FPV hover

10+

years of proven AI/CV expertise

2+

years of building UAV technology

20+

skilled military & defense engineers