Revolutionizing aerial transport with autonomous VTOL aircraft — delivering high-value payload farther, faster, and safer than ever



Far, Fast, Life-saving
At Haast Autonomous, we are building high-speed, long-range unmanned aircraft to revolutionize the way life-saving medical supplies are delivered — beginning with organs. Our purpose-built, autonomous hybrid VTOL aircrafts eliminate outdated slow, inefficient, and risky transport systems, drastically reducing handoffs, delays, and costs. Our goal is to create the future of medical logistics, saving lives by bringing critical cargo safer and faster than ever before.
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Ongoing Support
Haast ensures every mission remains connected, compliant, and traceable through continuous maintenance, software updates, and refueling support. Our integrated chain-of-custody system preserves every data point—from launch to delivery—eliminating information loss and ensuring complete visibility. With real-time diagnostics, secure data logging, and predictive maintenance, Haast keeps aircraft flight-ready and every organ transport mission fully documented, reliable, and auditable.
The Organ Transport Crisis
Every year, thousands of viable organs (almost 50%) go unused due to preventable delays in transportation. Hospitals often rely on slow, expensive charter flights or ground vehicles, leading to critical time loss. For organs like hearts or lungs, even a 30-minute delay can determine whether a transplant succeeds or fails.
Organ transport today involves dozens of handoffs between couriers, airlines, transplant coordinators, and medical staff. This fragmented system increases the risk of miscommunication, delays, and data loss, all while putting donor organs at risk. There is no real-time visibility or centralized control over the process.
Limited Access for Rural Patients
Rural hospitals and smaller transplant centers often lack the resources or access to rapid organ transport. This geographic inequity means that patients in remote areas have lower chances of receiving a life-saving transplant simply because the logistics don’t support fast delivery.
What’s missing is a solution that delivers high-value payload quickly, reliably, and without the logistical complexity of traditional methods. Haast Autonomous addresses this with an unmanned aerial system built for fast, long-range, and safe transport—connecting donor to recipient directly, every time.

OTD I
Fully 3D-printed proof of concept demonstrating fixed-wing VTOL feasibility. No payload, but proved complete in-house airframe design and control.
Introduced carbon-fiber composites and a hybrid gas-electric powertrain, marking our first step toward scalable endurance.

OTD III
Full composite 5 m wingspan aircraft featuring coaxial lift motors, redundant systems, and a projected range exceeding 1,000 miles.
Our current Pilot-Trial Platform builds on these foundations with a 2 m blended-wing-body design, fully electric EDF propulsion, and a modular 3D-printed airframe for rapid iteration. We fly weekly, iterating faster than ever toward scalable, long-range medical delivery systems.

FAQ
What is Haast?
Haast Autonomous is building unmanned, long-range VTOL aircrafts with regulated pressure, temperature, and vibration storage to revolutionize organ transport — delivering life-saving medical supplies roof-to-roof faster, safer, and more efficiently than current systems.Haast Autonomous is building unmanned, long-range VTOL aircrafts with regulated pressure, temperature, and vibration storage to revolutionize organ transport — delivering life-saving medical supplies roof-to-roof faster, safer, and more efficiently than current systems.
Does Haast work with pre-existing organ boxes
Yes, Haast works with most pre-existing organ procuring containers on the market.
What safety features does Haast aircrafts have?
Redundant motors, batteries, gyroscopes, accelerometers, barometers, and GPS modules Gasoline-electric hybrid systems for longer range and emergency backup Multiple telemetry systems (C-band, 5G, SATLINK) Parachute recovery system for final failsafe Encrypted cellular telemetry for continuous flight monitoring Pressure, temperature, and vibration-controlled payload bays to protect organs during flight
How does Haast Autonomous differ from other competitors?
Unlike consumer-centric companies, Haast is purpose-built for critical, high-risk medical logistics. We integrate directly into hospital workflows, require minimal new infrastructure, and support sensitive biologics like organs — not just light commercial goods. Our aircraft are fully autonomous, vertically launching from hospitals without ground hubs, and fully compatible with existing organ preservation containers.
Is this system already in use?
We are actively testing prototypes and expect to begin autonomous transportation in 2026. Full deployments will follow pending FAA flight worthiness clearance.





