Robust navigation architecture born from the Sztorm rocket program. Delivering reliable data for high-dynamic launchers, UAVs, and satellite constellations.
EXPLORE TECHNOLOGY
Flagship Module
| Gyro Bias Instability | < 10 °/h |
| Angular Random Walk | 0.15 °/√h |
| Accel Bias Instability | 15 μg |
| Update Rate | Up to 1 kHz |
| Interface | CAN-FD / RS-422 |
Unified Architecture
Our proprietary "Common Core" technology allows us to scale performance and cost without redesigning the system. Whether you need a cost-effective solution for a drone swarm or high-precision guidance for orbit injection, the interface remains the same.
Need higher accuracy? We stack more sensor elements into the array. Need a more economical version? We optimize the configuration.
Switching from our UAV module to the Space-grade version requires zero software changes. One protocol (CAN/UART) rules them all.
FPGA-based processing ensures that data is delivered with microsecond precision, critical for high-dynamic control loops.
The foundation. Built to survive the acoustic and vibration loads of the Sztorm rocket program.
Adapted for endurance. Lightweight envelope offering dead-reckoning for tactical drones.
The ultimate iteration. Adding radiation tolerance and thermal management for orbital lifespan.
Proven in flight & vibration tests.
Active integration with defense partners.
TVAC tests & Maiden Space Flight.
Our Story
Founded by a dedicated team of aerospace and embedded systems engineers, Baltic Space Systems was born from the necessity to build highly robust, deterministic systems for our own demanding rocket programs. This heritage of extreme testing is embedded in the core architecture of every INS module we build.
TRUSTED BY INDUSTRY LEADERS