With tight coupling GNSS baseband signal processing, RTK ambiguity resolution, MEMS inertial sensors and VIO vision sensors, we can effectively deal with signal blockage and interference, thus achieve reliable high-precision positioning in complex environment.
Our self-designed dedicated chips receive multi-system multi-frequency signals such as BDS, GPS, GLONASS and GALILEO. Our solutions bring about less power consumption, better performance, smaller size and lower cost, and chips can be integrated into various navigation systems much more easily than those FPGA solutions.
High Precision Boards receive multi-system multi-frequency signals such as BDS, GPS, GLONASS and GALILEO, and support dual-antenna positioning and orientation. Our receivers are driven by a new generation of signal tracking loop and RTK algorithms, support current and future navigation signal formats, and achieve excellent performance under dynamic conditions against signal blockage and jamming.
Our receivers have built-in high precision boards, support portable charger and (optional) 4G, Bluetooth, radio, antenna and other accessories. Receivers can be widely used in driver license testing, mapping, CORS reference station, deformation monitoring, precision agriculture, UAV, engineering machinery and many other fields.
It includes built-in GNSS high precision receiver and IMU inertial sensor, uses IMU information to assist RTK ambiguity resolution and baseband signal tracking, and optimizes our design for vehicle applications. It can effectively deal with satellite signal interference and blockage under harsh environment, and provide reliable stable continuous high precision position and attitude for intelligent connected vehicles.