Autonomy. Endurance. Intelligence. Built in Canada.
High-performance UAV systems for wildfire response, defence ISR, and remote logistics designed with AI at the edge and simulation-first precision.
One Platform. Many Missions.
Our fixed-wing UAV adapts to ISR, cargo, and environmental ops with hot-swappable payloads and tail-mounted turbofan propulsion built for endurance.
Simulation-Built. Field-Ready.
Control policies are trained and validated in Unreal Engine 5 + NVIDIA Isaac Sim, in parallel with hardware development, ensuring real-world readiness through continuous virtual-hardware alignment.
Designed for Defence. Built for the World.
From wildfire coordination in BC to ISR along Arctic corridors, our platform delivers sovereign capability with global readiness.

🚀 Our $1M Seed Round is Now Open – Join us in building Canada’s next-gen UAV platform. 🚀 Our $1M Seed Round is Now Open

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Our Vision

To pioneer the future of autonomous flight, leading the world from Canada’s frontiers to the edge of possibility, on Earth and beyond. We aspire to set new standards in aerospace autonomy, inspiring progress from our home in Canada to the farthest reaches of the sky and space.

Our Mission

To build intelligent aerospace systems that boldly extend human reach flying where we cannot, enduring what we should not, and performing with unwavering precision. Our mission is to empower humanity with resilient, autonomous machines that thrive in the world’s most challenging and vital environments.

What’s Missing

Defence
ISR gaps, human control dependency, and slow data relay limit mission effectiveness and timely decision-making.
Wildfires
No persistent autonomy in smoke of rugged terrain, making rapid wildfire detection and coordinated response difficult.
Logistics
No long-range UAVs for 24/7 or remote delivery, leaving critical supply chains exposed and communities underserved.
Agriculture
Limited coverage, poor data granularity, and slow feedback hinder precision agriculture and timely crop management.

Mission-Driven. Modular. Scalable.

Inertion Drone

Designed for autonomy and endurance, our modular UAV platform starts with a defence-focused Rev 2 featuring a tail-mounted turbofan and hot-swappable payloads for ISR, logistics, and wildfire monitoring. All flight policies are trained in full-physics simulation, reducing risk and accelerating certification. Built in simulation, engineered to scale.

Autonomy Stack

Simulation & Training Platform
UE5 + Isaac Sim used for control logic training, physics validation, and mission simulation. (Foundation for everything else)
Onboard Autonomy Algorithms
Hybrid PID, MPC, and deep RL models for adaptive flight control and autonomous decision-making. (Trained in simulation)
Autopilot & Actuator Control
Redundant onboard system for real-time stabilization, path tracking, and actuator command execution.
Sensor Fusion & Perception
Integrates EO/IR, LiDAR, GPS-INS, IMU, and camera data for onboard environmental awareness.
Real-Time Edge Inference
Runs deep learning policies on Jetson-class hardware using ONNX and LibTorch for mission-critical autonomy.
Resilient Communications Stack
Encrypted RF, LTE, and SATCOM with fallback protocols for BVLOS and contested environments.

Autonomy Development Loop

Autonomy Development Loop

Roadmap

2025 (post-funding planned)

  • Engage Innovate BC, NRC IRAP, and provincial funding programs
  • Begin outreach to VCs and angel investors for $1M seed round
  • Define grant strategy aligned with R&D and export potential
  • Begin Rev 2 design (CAD, airframe, propulsion config)
  • Update UE5 + Isaac Sim for Rev 2 scenario training

*All 2025 goals are contingent on successful seed round and early grant traction.

2026

  • Team expansion: avionics, autonomy, and mechanical engineering
  • Rev 2 prototype assembly (frame, propulsion, modular payloads)
  • AI integration + full-system testing in sim
  • Initial safety and telemetry loops established for certification
  • Internal dry-run for SFOC submission (Transport Canada)

2027

  • Ground tests & tethered flight trials (BC wildfire, ISR routes)
  • Begin BVLOS flight tests under special permits
  • Flight controller validation with real-world feedback
  • Pitch & demo rounds for strategic co-funding (defence + private sector)

2028

  • Begin limited-scale production of pre-commercial units
  • Engage dual-use deployment partners (defence ISR + wildfire monitoring)
  • Finalize CGP export compliance and early allied trials
  • Start multi-region demo flights (Canada, Australia, EU partner site)

2029

  • Strategic partnerships with defence primes or public agencies
  • Signed pilot contracts with ISR, wildfire, or logistics programs
  • Platform variant design begins (larger airframe, heavier payloads)
  • Ongoing iteration of autonomy stack + on-device training exploration

2030+ Strategic Outlook

  • Fully certified fixed-wing UAV platform with modular ISR, logistics, and environmental variants
  • Dual-use export-ready architecture deployed in allied markets
  • Scalable production in North America or partner manufacturing hubs
  • Research ongoing into larger platform variants and multi-aircraft autonomy