AURYN Autonomous Flight Modules enable unmanned systems to navigate, recover, avoid threats and complete missions with minimal operator intervention. Designed for denied, degraded and disrupted operational environments, these software-defined capabilities provide assured autonomy across ISR, force protection, counter-UAS and tactical strike missions.
→ 01 OVERVIEW
Mission Autonomy Beyond GNSS and Communications
Modern military operations increasingly take place in environments where GNSS signals are degraded, communications are disrupted, and operators cannot maintain continuous control of unmanned assets.
AURYN Autonomous Flight Modules provide the navigation, guidance and decision-making capabilities required to sustain operations under these conditions. Built on a modular architecture, each capability can be deployed independently or integrated into a complete autonomy stack, compatible with the majority of open-source software and edge-AI COTS modules.
The result is a resilient software layer that allows unmanned systems to maintain mission effectiveness when conventional navigation and control methods are unavailable.
→ 02 TECHNOLOGIES
Assured Navigation in Contested Environments
Maintain operational effectiveness when GNSS signals are degraded, denied or manipulated, ensuring mission continuity in highly contested electromagnetic environments.
Autonomous Mobility and Survivability
Navigate complex operational environments while reducing the risk posed by terrain, obstacles and unforeseen hazards, increasing platform survivability throughout the mission.
Dynamic Recovery and Resupply Operations
Support autonomous deployment, recovery and logistics operations from mobile assets, extending operational reach and flexibility across dispersed forces.
Autonomous Emergency Response
Enhance platform resilience by enabling safe recovery actions during degraded, unexpected or off-nominal mission scenarios.
Precision Engagement Support
Provide autonomous guidance capabilities for time-sensitive missions requiring accurate target interception and terminal engagement.
Passive Threat Pursuit
Enable engagement and tracking of targets without relying on active emissions, improving operational effectiveness in contested and low-observable scenarios.
Extended Operational Reach
Reduce dependence on external infrastructure and operator workload, allowing unmanned systems to operate deeper, longer and more independently within the battlespace.