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Codective Autonomous Navigation and Target Guidance System is a hardware module integrated with proprietary software designed to convert any UAV into a fully autonomous platform. Engineered for GNSS-denied environments, the system delivers ultra-precise navigation and target engagement capabilities, meeting the rigorous demands of modern defense operations.
State-of-the-Art accuracy
Mission planning for DNSS-denied environments
Decision-making algorithms
Visual Target Guidance ("last-mile")
VPS enabled (Visual Positioning System)
Sensor fusion AI-algorithm
Technical Capabilites
AI-Powered Visual Navigation: The system employs advanced computer vision algorithms to interpret real-world environments in real time, ensuring reliable operation without satellite guidance.
Precision Targeting: Proprietary algorithms enable accurate identification, tracking, and engagement of targets, supporting mission-critical decisions in dynamic operational contexts.
Robust Performance in Contested Environments: Designed for operation in environments where traditional navigation systems are compromised, the module provides consistent, high-fidelity performance under challenging conditions.
Adjustable to almost any fixed-wing UAV
Easy integration with flight controllers
Ardupilot/BetaFly/iNAV compatible
Runs in real time on embedded CPUs
Our solution occupies the critical space between UAV hardware development and advanced software engineering. The module is engineered for seamless integration across various drone platforms, enabling retrofitting without extensive modifications. This approach allows for rapid deployment and operational flexibility in deep strike missions and other complex scenarios.
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