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PRECISION AEROSPACE // CANADA
The Platform

Powered parafoil. Purpose built.

A large-format autonomous aircraft engineered for precision delivery, long endurance, and low cost. Built in Canada, ready for defence and agriculture.

DOC.REF // PA-PF-2601

Heritage

From the field
to the front.

The aircraft began as an agricultural air sprayer, built to cover vast fields with heavy loads and long flight times. Those same qualities make it an exceptional logistics platform.

A Rotax 912 or 915 engine paired with a large parafoil canopy carries substantial payloads across long distances. Because the airframe is aluminum and the wing is a parachute, the asset arrives at a fraction of the cost of conventional heavy-endurance drones. That economics opens mission profiles that were previously out of reach.

System Specifications

Engineered to a
measured standard.

DOC.REF // PA-PF-SPEC-001

Precision Aerospace aircraft in flight
LIVE // AIRFRAME PA-PF
Parameter Value
Max Payload > 800 lb
Endurance > Up to 48 hr
Propulsion > Rotax 912 / 915
Range > 2,000+ km
Launch / Recovery > Autonomous
Operating Mode > BVLOS + Remote ID
Airframe > Aluminum + Parafoil
Payload Bay > Modular / SOLV-ready
Autonomy

A proprietary autopilot.

Flight control is ours end to end. That ownership lets us tune the aircraft for missions that off-the-shelf systems cannot fly.

01

BVLOS Navigation

Our proprietary autopilot flies beyond visual line of sight with Remote ID, handling launch, cruise, and recovery without an operator in the loop.

02

Adaptive Mission Profiles

Route around threats, adjust to weather, and re-task mid-flight. The aircraft adapts to the mission rather than the other way around.

03

Sky-Train Delivery

Coordinate several aircraft on independent routes to a single objective. Distributed risk keeps the value of any one asset low.

Edge Vision // Live

SOLV Tactical.
Intelligence at the edge.

SOLV is a real-time edge computer vision system that turns raw imagery into decisions in the air. It knows exactly where it is looking, projects the corners of every frame with high precision, and streams only what matters back over SATCOM or Starlink.

Compute Core
NVIDIA Jetson Thor
Sensor Fusion
IMU + Integrated LiDAR
Geolocation
Four-corner image projection
Output
Real-time orthomosaic + vector stream

Proprietary vector compression sends a lightweight representation of each scene, then delivers full-resolution imagery only when a target warrants a closer look. SOLV integrates into our aircraft or any third-party platform.

Target Acquired
LAT 45.4215° N
LNG 75.6972° W
ALT 1,240 FT MSL
TRK 045° TRUE
Core Technologies

A vertically integrated stack.

Airframe, autopilot, sensing, and AI are built and owned in-house. That integration is what lets us field capability others cannot.

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Powered Parafoil Aircraft

A large-format autonomous platform for precision delivery at low cost and long endurance.

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SOLV Edge Vision

Real-time computer vision at the edge, geolocated to the frame and fused to an onboard IMU.

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Proprietary Autopilot

In-house flight control for BVLOS navigation, precision targeting, and adaptive mission profiles.

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Custom AI Models

A world-class research team builds detection and analytics models for demanding use cases.

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Real-Time Mapping

High-resolution orthomosaics generated in flight and streamed back for immediate advantage.

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Vector Compression

Lightweight scene representations that transmit only what matters over constrained links.

0 lb
Payload capacity
0 hr
Maximum endurance
0 + km
Operational range
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Canadian engineered
Next Step

See it fly.

Request a technical briefing or a field demonstration with our engineering team.