SOVEREIGNTY THROUGH AUTONOMY

When RF links go dark, most drones go blind.

Ours don't.

Our navigation modules bolt onto standard FPV drones, allowing them to return to a recovery point even after loss of GPS + control link.

Get in touch Explore the gap

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// THE GAP

The battlefield has changed.

Ukraine proved small drones dominate modern warfare. But most are manually piloted, dependent on a stable control link, and defenceless against jamming. When electronic warfare hits, aircraft are lost early before they can complete their mission.

The Crisis

FPV EFFECTIVE HIT RATE

<20%

of FPV sorties result in a confirmed hit on target.

Control link disruption and video transmission jamming are consistently cited as primary reasons drones are lost before delivering effects.

The Offset

ZERO

jamming losses

guidance onboard

Our module integrates into existing FPV stacks and flight controllers, adding recovery behavior when command and navigation links are disrupted.

When RF links are disrupted, most aircraft do not return. Our aim is straightforward: more drones back on the ground, their data intact, and ready to fly again.

// OUR SOLUTION

Accurate position fixing when GPS is denied.

Our navigation module sits between a standard GPS receiver and the flight controller. When satellite data is valid, it forwards that input; when GPS is degraded or absent, it instead provides its own position and heading estimate, enabling return-to-home behavior in contested signal environments.

It is designed to work alongside common FPV firmware stacks such as Betaflight, iNav, and ArduPilot, and to be installed without changes to the airframe or pilot workflow.

DISCUSS FIELD EVALUATION

Input

GPS receiver

Navigation module

Forwards GPS when it is trusted and provides onboard estimates when it is degraded or absent.

Computer vision · IMU · Gyroscopes · Flight controller telemetry

Output

Flight controller

Betaflight · iNav · ArduPilot

// DATA MOAT

Navigation performance that compounds with data.

Accurate position fixing without GPS is a data problem: performance depends on how the system has been exposed, calibrated, and evaluated across different environments.

Our approach is to run tightly scoped flights, record how the module behaves under degraded signals, and use that data to refine bounded, predefined recovery behaviors.

Over time, this loop improves reliability and precision without changing the fact that the system remains onboard, deterministic, and operator-compatible.

DEPLOY

Low-cost

Expendable hardware enters contested airspace

SURVIVE

GPS-denied

Visual navigation defeats jamming

RETURN

Data intact

Sensor logs from real combat conditions

LEARN

Model update

Training data no simulation can replicate

Field evaluation & collaboration.

We work with operators and technical teams to run tightly scoped field pilots, gather feedback, and iterate based on how the system performs in real conditions.