DELIVERING SOLUTIONS TO THE WORLD
Supporting the communities who need it most with the power of technology, creating new possibilities and delivering them to people around the world through our products and services.
AVIUS CONTROLLER
ML-driven stabilization for eVTOLs, with the precision of DDRM and iVPM, mitigating destabilization phenomena like vortex ring state, complex rotor interactions, and ground effects. Ensures resilient and adaptive flight control in dynamic environments.
AERIAL8
Our Ring-Wing revolutionizes aerial robotics and eVTOL design with its articulated ring-like wing structure. Featuring distributed propulsion and dynamic payload stabilization systems, this technology offers unparalleled stability, efficiency, and versatility.
HAWK
Integrating the Avius vision-based controller with advanced aerodynamic and biomimetic self-morphing flight surfaces, HAWK generates power from wind energy suitable for remote and underserved regions.
A next-generation Guidance, Navigation, and Flight Control System (GNFCS) that combines cutting-edge AI, advanced sensor fusion, and robust real-time processing to enable unparalleled precision and adaptability in unmanned aerial systems. Built on a multilayered architecture that leverages reinforcement learning (RL), physics-informed neural networks (PINNs), and model predictive control (MPC) to deliver adaptive, resilient, and efficient flight control.
Key Features:
1. Sensor Fusion & State Estimation
2. AI-Driven Control
3. High-Performance Simulation
4. Edge AI & Secure Communications
Our system is scalable, modular, and hardware-agnostic, designed for applications ranging from eVTOLs to swarm robotics. With extensive testing, including Monte Carlo simulations and hardware-in-the-loop validation, we ensure reliability in the most demanding environments.
For investors, this represents a unique opportunity to back a vertically integrated, AI-enhanced flight control platform poised to dominate the autonomous aviation market. Let’s redefine the future of flight together.
AVIUS CONTROLLER
ML-driven stabilization for eVTOLs, with the precision of DDRM and iVPM, mitigating destabilization phenomena like vortex ring state, complex rotor interactions, and ground effects. Ensures resilient and adaptive flight control in dynamic environments.
AERIAL8
Our Ring-Wing revolutionizes aerial robotics and eVTOL design with its articulated ring-like wing structure. Featuring distributed propulsion and dynamic payload stabilization systems, this technology offers unparalleled stability, efficiency, and versatility.
Our US Patent Pending Ring-Wing Invention is an innovative drone and eVTOL (electric Vertical Takeoff and Landing) design characterized by its articulated ring-wing structure integrated with distributed propulsion systems and a dynamic payload stabilization mechanism. This invention addresses the longstanding trade-off between lift efficiency and maneuverability inherent in conventional multirotor and fixed-wing aerial robotics. Its design enhances operational safety, stability, and adaptability, particularly in complex urban and industrial environments.
Key Features:
1. Articulated Ring-WIng Structure
2. Distributed Propulsion Systems
3. Dynamic Payload Stablisation
4. Reinforcement Leaning & AI Integration
5. Modularity & Flexibility
6. Fail-Safe Mechanisms
7. Noise & Environmental Considerations
Our AERIAL8 offers transformative potential for urban air mobility, industrial applications, and humanitarian efforts by redefining drone and eVTOL design with enhanced safety, efficiency, and versatility.
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HAWK
Integrating the Avius vision-based controller with advanced aerodynamic and biomimetic self-morphing flight surfaces, HAWK generates power from wind energy suitable for remote and underserved regions.
Our gateway to remotely generating renewable energy is HAWK - an Airborne Wind Energy System (AWES) that integrates The Avius vision-based controller with advanced aerodynamic and biomimetic self-morphing flight surfaces. HAWK leverages its low-material, low-environmental-footprint solution to generate 0.3 - 0.5 kW/m² of power density from wind energy suitable for remote and underserved regions.
Key Technical Advantages:
1. Dynamic Aeroelastic Design
2. Electromagnetic Energy Conversion
3. Dynamic Adjustment of Pitch & Roll
Other Unique Features:
1. AI-Powered Embedded Vision
2. Regenerative Braking System
3. Easy Deployment
4. Cloud Computation & Machine Learning
By combining clean energy generation with real-time farm monitoring, HAWK empowers farmers to reclaim their land, boost crop yields, and ensure safety in challenging environments.
AVIUS CONTROLLER
A next-generation Guidance, Navigation, and Flight Control System (GNFCS) that combines cutting-edge AI, advanced sensor fusion, and robust real-time processing to enable unparalleled precision and adaptability in unmanned aerial systems. Built on a multilayered architecture that leverages reinforcement learning (RL), physics-informed neural networks (PINNs), and model predictive control (MPC) to deliver adaptive, resilient, and efficient flight control.
Key Features:
1. Sensor Fusion & State Estimation
2. AI-Driven Control
3. High-Performance Simulation
4. Edge AI & Secure Communications
Our system is scalable, modular, and hardware-agnostic, designed for applications ranging from eVTOLs to swarm robotics. With extensive testing, including Monte Carlo simulations and hardware-in-the-loop validation, we ensure reliability in the most demanding environments.
For investors, this represents a unique opportunity to back a vertically integrated, AI-enhanced flight control platform poised to dominate the autonomous aviation market. Let’s redefine the future of flight together.
AVIUS CONTROLLER
ML-driven stabilization for eVTOLs, with the precision of DDRM and iVPM, mitigating destabilization phenomena like vortex ring state, complex rotor interactions, and ground effects. Ensures resilient and adaptive flight control in dynamic environments.
AERIAL8
Our Ring-Wing revolutionizes aerial robotics and eVTOL design with its articulated ring-like wing structure. Featuring distributed propulsion and dynamic payload stabilization systems, this technology offers unparalleled stability, efficiency, and versatility.
AERIAL8
Our US Patent Pending Ring-Wing Invention is an innovative drone and eVTOL (electric Vertical Takeoff and Landing) design characterized by its articulated ring-wing structure integrated with distributed propulsion systems and a dynamic payload stabilization mechanism. This invention addresses the longstanding trade-off between lift efficiency and maneuverability inherent in conventional multirotor and fixed-wing aerial robotics. Its design enhances operational safety, stability, and adaptability, particularly in complex urban and industrial environments.
Key Features:
1. Articulated Ring-WIng Structure
2. Distributed Propulsion Systems
3. Dynamic Payload Stablisation
4. Reinforcement Leaning & AI Integration
5. Modularity & Flexibility
6. Fail-Safe Mechanisms
7. Noise & Environmental Considerations
Our AERIAL8 offers transformative potential for urban air mobility, industrial applications, and humanitarian efforts by redefining drone and eVTOL design with enhanced safety, efficiency, and versatility.
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HAWK
Integrating the Avius vision-based controller with advanced aerodynamic and biomimetic self-morphing flight surfaces, HAWK generates power from wind energy suitable for remote and underserved regions.
HAWK
Our gateway to remotely generating renewable energy is HAWK - an Airborne Wind Energy System (AWES) that integrates The Avius vision-based controller with advanced aerodynamic and biomimetic self-morphing flight surfaces. HAWK leverages its low-material, low-environmental-footprint solution to generate 0.3 - 0.5 kW/m² of power density from wind energy suitable for remote and underserved regions.
Key Technical Advantages:
1. Dynamic Aeroelastic Design
2. Electromagnetic Energy Conversion
3. Dynamic Adjustment of Pitch & Roll
Other Unique Features:
1. AI-Powered Embedded Vision
2. Regenerative Braking System
3. Easy Deployment
4. Cloud Computation & Machine Learning
By combining clean energy generation with real-time farm monitoring, HAWK empowers farmers to reclaim their land, boost crop yields, and ensure safety in challenging environments.
AS SUPPORTED BY AND FEATURED IN
Because social proof matters. Our collaborators are some of the world’s leading technology companies, with our work featured in worldwide publications.
