Denver – 03/24/2020 – iXblue, a high-tech company specializing in the design and manufacturing of advanced navigation and georeferencing solutions, announces the launch of a new range of cost-effective FOG-based INS dedicated to land and air mobile mapping applications, the Atlans Series.
Based on iXblue’s Fiber-Optic Gyroscope (FOG) technology, the Atlans Series is a scalable range of North-seeking and North-keeping Inertial Navigation Systems. Cost-effective, they provide FOG performance to the full spectrum of land & air mobile mapping applications and offer highly accurate positioning (up to 0.01m) in all conditions, including within GNSS-denied environments such as urban canyons, mountainous or forests areas.
“Our existing high-grade Atlans A7 INS had already been adopted as the preferred georeferencing solution by leading U.S. companies operating in the pavement condition survey industry. Having identified the high potential of our technology for other land and mobile mapping applications, we decided to develop a complete range of scalable INS that each meet the specific requirements of every applications,” explains Marine Slingue, VP iXblue, Inc.” With our new Atlans Series INS, we are now bringing the unrivaled georeferencing accuracy performance offered by the FOG technology to all land and air mapping applications, enabling robust and uninterrupted data-acquisition operations.”
Quick and simple to install on all platforms, the new Atlans Series INS offers efficient “set-and-forget” operations for a wide range of land and air applications including asset inventory, pavement condition survey, vehicule automation, HD mapping, automotive testing, ground-truth, airborne surveys (UAVs, planes, helicopters), as well as precision pointing.
iXblue is a global high-tech company specializing in the design and manufacturing of advanced autonomy technologies. The group in-house expertise includes FOG-based inertial navigation systems that provide highly robust and accurate positioning in all conditions, including within GNSS-denied environments and that bring efficiency and reliability to all land and air mapping applications.