ARI is a fully autonomous UAV platform designed for operations in environments where external navigation aids and continuous connectivity cannot be assumed. The system integrates onboard perception, decision-making, and control to enable independent mission execution from start to completion.
By relying on onboard intelligence rather than external infrastructure, ARI provides predictable and repeatable autonomous behavior in complex and constrained environments. Its architecture supports autonomous deployment scenarios where reliability, independence, and controlled operation are critical.
Product Features
Fully Autonomous Operation
ARI is designed to perform complete missions autonomously, requiring no external control or continuous operator input once deployed.
Infrastructure-Independent Navigation
The platform operates reliably without reliance on satellite navigation or continuous data links, enabling operation in environments with limited or disrupted infrastructure.
Predefined Mission Execution
Mission parameters are defined prior to deployment, allowing ARI to execute its task independently without the need for in-mission updates or connectivity.
AI-Based Visual Perception
Advanced onboard vision algorithms enable real-time detection, tracking, and classification of objects within the operational environment.
Precision Terminal Guidance
ARI is capable of locking onto a designated point of interest and executing a controlled, high-accuracy terminal maneuver without human intervention.
Compact and Rapid Deployment Design
With minimal preparation time and a compact form factor, ARI is optimized for rapid deployment in time-sensitive operational scenarios.
Technical Features
| Operational Coverage | Up to 3 km |
| Autonomous Endurance | Up to 12 minutes |
| Cruise Speed | ~45 km/h |
| Operational Altitude | 10–20 m AGL |
| Application Load Capacity | Up to 3 kg |
| Deployment Readiness Time | ~2 minutes |
| Navigation Mode | Infrastructure-independent autonomous navigation |
| Positioning Dependency | No continuous satellite or external link required |
| Perception System | Onboard visual perception and object recognition |
| Mission Configuration | Predefined autonomous mission execution |
| Control Architecture | Fully onboard decision and control logic |
| Compute Capability | Integrated edge computing |
| System Architecture | Modular and extensible design |
| Software Compatibility | PX4-compatible autonomy stack |
| Integration Interfaces | Sensor and payload integration support |
| Environmental Tolerance | Operation in degraded signal environments |
