Shaping the future of navigation: From next-generation sensor fusion to enhanced autonomy, our upcoming developments are designed to push the boundaries of accuracy and reliability - on land, at sea, in the air, and beyond.
We’re continuously advancing our inertial navigation technologies to deliver greater precision, resilience, and performance in the most demanding environments.
Here’s a glimpse of what we’re building next:
µIMU for Hi-G
arazim is expanding the µIMU family to include new member with hi-g measurement capability. This need came mostly out industry request involved with hi-dynamics systems, requiring measuring hi-g accelerations along the launching axis. The hi-g capability is in addition to the standard lower g-range accelerometers in-order to maintain the hi-performance
Availability - Q2 2026
Main Features
Up-to 250g hi-g measurement
Up to 32g standard low-g measurement
Gyroscope with up to 2,000 °/sec
Multi-Array technology
Applications :
Smart Ammunition
Interceptors
Guided missiles
Loitering
For more information Contact us.
Visual-INS
Due to ever increasing need for navigation without GNSS, arazim is developing Visual-INS system, to overcome GNSS-denies scenarios. The system combines stereo-camera along with tactical-level IMU, all together fused by advanced UKF (= Unscented Kalman Filter) to provide optimal performance.
Availability - Q4 2026
Target Spec
< 1% Distance Travelled without GNSS
Applications
Ground Robotics
Aerial platforms
Loitering Ammunition
For more information Contact us.
Star Tracker for terrestrial
arazim is developing miniature star tracker to be used for land navigation
and other related terrestrial applications.
Availability - Q1 2027
Target Spec
azimuth < 20 arc-sec
Roll/Pitch < 80 arc-sec
Built-In tactical-grade IMU
Applications
Target Acquisition Systems
Radar Northing
Missile Launchers
Optical Systems Alignment
For more information Contact us.
SpaceIMU
We are pleased to report that space-qualified version of our gIMU-3G was selected to be launched to space for nano-sat LEO mission. The project is funded by the Israeli MoD – Mafat with Tel-aviv university as prime contractor.
The gIMU-3G/S is space-version of the popular gIMU-3G, tactical-grade Inertial Measurement Unit consists of 3-axis accelerometer and 3-axis gyroscope, all within miniature, rugged package.
