Precision for Extreme Operations.
Autonomous navigation systems designed for space and tactical environment. Independence from GNSS and all-weather capability.
Ecosystem of Precision.
UAV Core
Maximum vibration resistance and low drift for unmanned aerial vehicles.
Space Grade
Tactical grade performance optimised for LEO and CubeSat missions. Radiation resistance.
Tactical Navigation
Extreme precision for launch vehicles. Unprecedented acceleration and angular rate limits.
Technological Edge.
Nasze systemy IMU definiują nowe standardy niezawodności w misjach o krytycznym znaczeniu dla masy, objętości i budżetu.
Easy integration
A single documented interface for satellites, rockets and drones, ready for immediate implementation.
Exceptional accuracy
Multi-MEMS technology provides scalable and predictable performance.
Cost-efficient
Tactical-grade performance without the cost of FOG/HRG systems, ideal for smallsats or disposable drone market
GNSS-degraded ready
Maintains orientation during GNSS signal loss or star tracker failures.
Local supply chain
Components sourced in Europe, easier export and implementation into products.
All weather
Worksduring day and night, storm or even underwater. Not dependent on optical navigation.
Mission-configurable
The possibility of adding sensory elements to increase precision while maintaining form.
Space ready
Originating from the sounding rocket programme. Designed for harsh environment and operation in LEO.
Tailored to your Trajectory.
Our Multi-MEMS architectire Our Multi-MEMS platform is not a blackbox. Thanks to its modular architecture and interchangeable nature, we cand adapt parameters to the specifics of each mission and cost requirements.
Bridging the gap between expensive FOG and economic MEMS.
We provide tactical-grade navigation solutions that are accessible to the rapidly growing New Space and UAV sector.
Born from Necessity.
Baltic Space Systems was founded by a team of aerospace and embedded engineers. The company was born out of the need to build highly robust, deterministic systems for our own demanding rocket programmes.