Advanced Air Mobility.

The world's first truly autonomous, safe and affordable point-to-point aerospace vehicle company.

Our vision.

We're committed to democratising the skies. Our vision is affordable, sustainable, and high-speed autonomous air travel for everyone. We're harnessing the power of advanced technologies to create aerial solutions that are as kind to your wallet as they are to our planet.

We are pioneering the domestic Advanced Air Mobility (AAM) sector with our LEAD Phoenix vehicle and propriety AAM software. We strive to emerge as a global front-runner by delivering cutting-edge, safe, and reliable AAM solutions while amplifying our deep-tech R&D capabilities.

Introducing the LEAD Phoenix.

Logistics, Emergency Services, Air Transport, Defence

Performance

The LEAD Phoenix vehicle will travel at 300km/h, boasting a 200km range and 200kg payload.

Autonomy

Autonomous capabilities are at the heart of LEAD Phoenix. Automated navigation, high-speed object recognition, safety redundancy and automated takeoff and landing ensures LEAD Phoenix is leading the AAM revolution.

Economic

Harnessing some of the most capable electric and hybrid engine capabilities, the LEAD Phoenix promises affordability.

Purpose Built

LEAD Phoenix is designed for urban flying, ensuring quiet transportation throughout its flight. It's foldable wings enables parking in urban areas.

Emergency Services

Rapid Response: Any terrain - every second counts.

Search and Rescue: With advanced sensors using AI and ML capabilities, the LEAD Phoenix can scan vast areas quickly, identifying individuals in distress or locating missing persons in situations like natural disasters, forest fires, or shipwrecks.

Medical Evacuation: Designed to seat one passenger comfortably, the LEAD Phoenix can swiftly transport critically injured or ill individuals to medical facilities, bypassing road congestion or remote location constraints.

Remote Area Access: The ability of the LEAD Phoenix to land in tight or rugged spaces ensures emergency aid, supplies, or medical assistance can be delivered to isolated communities or hard-to-reach accident sites.

Real-Time Surveillance and Data Gathering: Autonomous AI and ML-enabled systems can relay crucial real-time data back to command centres, offering live insights into evolving situations like wildfires, floods, or public safety incidents, enabling more strategic deployment of ground resources.

Logistics

Time-Efficient Deliveries: The LEAD Phoenix's high-speed capabilities and direct flight routes can significantly reduce transportation time, especially in urban areas with traffic congestion, ensuring quicker delivery of goods and products.

Flexible and Precise Drop-offs: With its compact size fitting a commercial carpark, the LEAD Phoenix can execute precise deliveries in tight or complex locations, from high-rise rooftops to remote sites, bypassing traditional logistical challenges.

Reduced Operational Costs: Operating on green hydrogen hybrid or battery tech, the LEAD Phoenix offers an eco-friendly alternative, potentially leading to decreased fuel expenses, reduced carbon taxes, and maintenance costs compared to traditional delivery vehicles.

Enhanced Cargo Security: Its AI and ML systems allow for real-time tracking and monitoring of the cargo, reducing risks associated with theft, loss, or damage. Moreover, its autonomous nature minimises human error in handling.

Scalability in Operations: As an autonomous vehicle, the LEAD Phoenix can operate round-the-clock, offering businesses the flexibility to scale operations during peak demands without the constraints of human work shifts, enhancing overall supply chain efficiency.

Personal and Commercial Transport

Eco-Friendly Commercial Taxi: The LEAD Phoenix, powered by green technology, offers individuals and businesses a sustainable mode of transport. This reduces the carbon footprint associated with traditional air travel, supporting global environmental efforts.

Time Efficiency: Bypassing Road traffic and direct flight paths, the LEAD Phoenix can significantly reduce travel times, making it ideal for busy professionals, urgent deliveries, or anyone valuing time.

Accessibility to Remote Locations: With its VTOL capabilities, the LEAD Phoenix can access hard-to-reach areas without requiring extensive infrastructure like runways. This opens possibilities for tourism, resource exploration, and business expansions into untapped regions.

Cost-Effective Personal Transport: The autonomous nature and efficient propulsion system can potentially lower operational costs in the long run, making air travel more affordable and accessible to a broader demographic.

Safety and Reliability: The AI and ML-enabled capabilities of the LEAD Phoenix ensure precision in navigation and operations, reducing the risk of human errors. Its design focus on safety, regular software updates, and maintenance protocols can provide a dependable mode of transport for personal and commercial purposes.

Defence Force

Rapid Reconnaissance and Surveillance: The LEAD Phoenix can swiftly cover vast areas, providing real-time intelligence, surveillance, and reconnaissance data. Its autonomous AI and ML capabilities ensure accurate data gathering and processing, which is vital for strategic planning and decision-making.

Secure Communication Relay: In contested or remote environments where traditional communication systems might be compromised, the LEAD Phoenix can act as a mobile relay station, ensuring secure and uninterrupted lines of communication for ground, naval, and other air assets.

Force Multiplication: The ability to deploy multiple LEAD Phoenix units simultaneously enhances the defence force's operational capacity, allowing for diverse missions to be carried out concurrently without stretching human resources.

Logistical Resupply: In challenging terrains or active combat zones, the LEAD Phoenix can safely and efficiently deliver essential supplies, equipment, or medical aid to troops on the front lines, minimising exposure to potential threats.

Precision Fires Operations: Precision fires, ordinance delivery and automated delivery capabilities can significantly enhance combat unit capability by enhancing battlespace C4ISTAR combined with human-machine teaming, reducing soldier threat exposure and increasing strategic battlespace effects.

Software Features

Hardware is only half the challenge.

Our team will build the complete package with a world-class software development team based in Australia.
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Mobility as a Service

Offering a user-friendly booking and scheduling platform, payment integration and customisation features.
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Full Autonomy

Integrating autonomous navigation systems with inbuilt safety protocols, introducing the next generation of safety and automation.
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Fleet Management

Automating management with remote monitoring, maintenence predictive analysis, and automated scheduling and deployment.

What does our product development roadmap look like?

Phase One
Phase Two
Phase Three
Phase Four
2025
2025
Initial Design and Feasiblity
Phase One - Initial Design and Feasibility

Engineering and Design: Preliminary design, aerodynamic modelling, and initial feasibility studies. R&D: Begin simulations and initial technology assessments.

Prototyping and Early Testing
Phase Two - Advanced Testing and Manufacturing Setup

Engineering and Design: Finalization of prototype designs based on test results.
R&D: In-depth testing of prototypes, including simulated environment tests.
Manufacturing and Production: Finalizing assembly lines and beginning small-scale production.
Certification and Regulation Compliance: Submit initial test results to regulatory bodies, addressing compliance feedback.

Advanced Testing and Manufacturing Setup
Phase Three - Prototyping and Early Testing

Engineering and Design: Completion of detailed design and initiation of prototype development.
R&D: Develop and test core technologies; start building prototypes.
Manufacturing and Production: Assessing and setting up initial manufacturing capabilities; supply chain establishment.
Certification and Regulation Compliance: Preliminary discussions with regulatory bodies and documentation preparation for certification.

Certification, Scaling, and Pre-Market Preparation
Phase Four - Certification, Scaling, and Pre-Market Preparation

Engineering and Design: Refinements based on advanced testing feedback and preparation for production.
R&D: Final tests, including stress tests and emergency scenarios.
Manufacturing and Production: Scaling up manufacturing; quality assurance protocols in place.
Certification and Regulation Compliance: Completion of certification process; securing operational clearances.

Meet Our Leadership Team

The Fait Corporation Leadership Team comprises distinguished professionals with decades of rich leadership experience spanning various industry sectors. They have collectively steered the helm of senior defence, intelligence, energy, engineering, aerospace, aviation, machine learning and automated robotics, demonstrating exceptional dedication and acumen.

Tim Radburn
Chief Executive Officer
Tin Lai
Chief of Automation
Tim Kelly
Chief of Aerospace
Brett Sangster
Chief Commerical Officer

We are seeking partners, innovators, and dreamers.

Case studies and resources.

Get in touch!

Our team will respond within 24 hours. Whether you are wanting to invest, seeking a new career or require further information get in touch today.