Autonomous Technology

Overview

Leveraging 30 years of expertise in the development of advanced INS, data fusion, filtering and processing technologies, iXblue is now a major player of the autonomous market, where robustness, sub-centimetric accuracy and the intercommunication of multiple sensors are the main challenges.

Product range

OEM Inertial Navigation

AUVs Inertial Navigation

Based on the Fiber-Optic Gyroscope technology mastered by iXblue for over 30 years, the company offers a complete range of OEM high-grade Attitude and Heading Reference Systems (AHRS) and Inertial Navigation Systems (INS) designed for easy integration on ROVs and AUVs.
 


Phins Compact Series

land navigation

UGVs/UAVs Inertial Navigation

FOG-based Inertial Navigation Systems (INS) are the cornerstone of robust and up-to-regulation autonomous systems, especially when GNSS outages are frequent. iXblue’s products are currently being used for underground autonomy research, surface autonomous vehicle research as well as testing and road surveys.


Atlans

Apps

ai

Artificial Intelligence

A 30-years know-how in INS, data fusion, filtering and processing makes iXblue a major field-proven player for autonomous technologies. Over the years, iXblue has significantly increased its capabilities in Artificial Intelligence (AI) and has recently acquired robotics and software developments company, Robopec.


Learn more about iXblue's AI capabilities

drix

Unmanned Surface Vehicle

To meet the growth of the Unmanned Surface Vehicles (USV) sector, iXblue launched a new multi-purpose autonomous surface platform which goal is to provide a cost-efficient and flexible solution for customers by expanding their working domains.


DriX

USBL Gaps

USBL Positioning

iXblue delivers a complete USBL offer with an extensive track record of successful operations from very shallow waters (15 m) to greater depths (10,000 m). Easy to integrate and cost-effective, these products are suited for a wide range of applications.


Gaps

Posidonia

Canopus

LBL Positioning

Highly precise and reliable Long Baseline (LBL) and Sparse Long Baseline (Sparse LBL) systems offer a truly independent positioning solution to aid autonomous navigation.

 


Ramses

Canopus

LF Transponders

MF Transponders