GNSS denial · Spoofing · Comms blackout
Autonomy engineered for
what the adversary does.
Navigation and perception engineered to assume GNSS is gone. Terrain-referenced, MCU-deployable, developed entirely within EU jurisdiction.
Founded by SSH inventor
Arctic-validated
EU sovereign infrastructure
Operational reality
GPS denial is a
battlefield reality.
GPS jamming and spoofing have become standard electronic warfare tactics. From active theatres in Ukraine to Baltic shipping lanes to civilian airspace over Northern Europe, GNSS signals can no longer be treated as reliable infrastructure.
Operational consequence
Loss of trusted position and timing degrades autonomy, mission coordination, and safety margins simultaneously. Systems designed with GNSS as an optional aid rather than a constant dependency are now the operational baseline.
The gap
High-grade inertial systems deliver accuracy at price points incompatible with mass-producible platforms. Pure visual odometry provides relative motion but drifts without absolute anchoring. Anti-jam GPS still depends on a signal that can be fully denied. The gap is clear: low-cost, low-power multimodal navigation capable of delivering absolute position on microcontroller hardware.
Clausal’s answer
Multimodal terrain-referenced navigation fused with inertial sensing. Sensor data is matched against preprocessed environmental models to determine absolute position without reliance on GNSS or continuous connectivity. The system is self-contained, resilient, and deployable on microcontroller hardware across any platform.
Capabilities
Three product lines.
One mission.
Project Taiga
Terrain-referenced navigation for denied and degraded environments
Absolute position without GNSS. Terrain-referenced, MCU-class, Arctic-validated.
Project Kite
Embedded perception and situational awareness
Detection and classification at MCU power. Visual and infrared, on the same hardware as navigation.
Project Forge
Embedded model development and deployment platform
Custom embedded capabilities, trained in Europe, deployed to your hardware.
Infrastructure
European sovereign
AI infrastructure.
All AI training runs on Clausal’s own compute in Finland. No training data leaves European jurisdiction. This is not a compliance workaround — it is the architecture.
GPU compute48 (32x B200 + 16x A100)
CPU cores2,500+ (Processing capacity)
Storage15+ Petabytes
Networking400G (Internal fabric)
Infrastructure-independent
autonomy.
The architecture exists. Terrain-referenced navigation, embedded perception, and EU sovereign compute — every component available for integration today.
Explore the technology