Developing mission-critical AI systems that enable spacecraft to operate autonomously beyond Earth orbit. Purpose-built for the extreme environments and extended mission durations of deep space exploration.
Our AI systems are engineered from the ground up to meet the unique challenges of operating in deep spaceโextreme radiation, limited power budgets, communication delays, and mission-critical reliability requirements.
Real-time trajectory optimization and collision avoidance for spacecraft operating millions of kilometers from Earth, with decision-making latencies measured in microseconds.
Advanced algorithms for dynamic resource allocation, multi-objective optimization, and adaptive mission execution in unpredictable deep space environments.
Radiation-hardened neural network architectures optimized for edge inference on space-qualified compute platforms with severe power and thermal constraints.
Deterministic inference with guaranteed latency bounds for time-critical spacecraft maneuvers
Byzantine fault-tolerant architectures with automatic failover and graceful degradation
End-to-end encryption, secure boot, and hardware-backed attestation for mission integrity
Comprehensive telemetry, performance monitoring, and post-mission analysis frameworks
Extensible platform designed for integration with existing spacecraft avionics and ground systems
Rigorous V&V processes aligned with NASA and DoD standards for space-qualified systems
We work with aerospace primes, defense contractors, and commercial space operators on next-generation autonomous systems. Reach out to discuss partnership opportunities.