I-NAV has successfully developed the first single-axis fiber optic gyroscope FOG7001, and recently the first integrated navigation and positioning system INS8001M has also been successfully developed. This product can be widely used in real-time navigation and mobile surveying and mapping, unmanned mining vehicles, unmanned ships, industrial robots, stable platforms (airborne, vehicle-mounted, ship-borne, mobile communication), airborne guidance and control systems and other fields.

    INS8001M integrated navigation and positioning system adopts FPGA+DSP solution, built-in GNSS high-precision positioning and orientation board and ADI 6-axis IMU, supports dual-antenna RTK positioning and orientation, and adopts loosely coupled integrated navigation algorithm, which can effectively deal with harsh conditions such as satellite signal interference and loss environment, providing stable, continuous, and credible high-precision position and attitude information. The data interface of this product adopts an error-proof design, which is convenient for users to produce, research and debug, supports dead reckoning, dual-antenna fast orientation, adaptive single-dual antenna mode, supports system identification, and is easy to calibrate.

   Next, I-NAV will launch two vehicle-level integrated navigation and positioning systems one after another. Among them, INS8002M is a vehicle-level standard vehicle-mounted integrated navigation and positioning system. GNSS positioning module and vehicle odometer realize integrated navigation. Another car-grade optical fiber hybrid inertial integrated navigation and positioning system INS6001GM is an innovative product in the industry. It has a built-in integrated high-precision optical fiber gyroscope for vehicle heading and a 6-axis MEMS inertial measurement unit, which is more accurate than existing pure MEMS IMU products. At least one order of magnitude, it can stably output centimeter-level high-precision positioning, speed measurement, and attitude information in real time in various harsh environments, and can maintain pure inertial navigation accuracy for a certain period of time after the satellite signal is lost. It can be widely used in autonomous driving Or passenger cars, commercial vehicles and unmanned vehicles with intelligent driving functions.

    For more news about new products of I-NAV, please continue to pay attention to the official WeChat public account of "Smart Navigation of I-NAV".

INS8001M组合导航定位系统