INS-D is a High precision Heading Tactical-grade IMU SP/SBAS/DGPS/RTK developed by Dilabs.
INS-DL is High precision Heading Industrial-grade IMU 1 cm RTK position developed by Dilabs.
INS-U is High precision Heading Industrial-grade IMU 1 cm RTK position developed by Dilabs.
The DILABS Dual Antenna GPS-Aided Inertial Navigation System-INS is a new generation of fully-integrated, combined GPS, GLONASS, GALILEO,QZSS,BEIDOU and L-Band navigation and high-performance strapdown system, that determine position, velocity and absolute orientation for any device on which it is mounted.
The DILABS GPS-Aided Inertial Navigation System (INS-DM) is the latest version of Inertial Navigation System.The INS-DM is the result of our experience in developing and supplying INS solutions to land, marine and aerial platforms.This System, the INS-DM, is an IP68 rated version of an all-new generation of super ruggedized, shielded from the EMC/EMI, fully-integrated, combined Inertial Navigation System(INS) + Attitude & Heading Reference System (AHRS) + Air Data Computer (ADC) high-performance strapdown system.
The Dilabs GPS-Aided Inertial Navigation System (INS-D/DL-OEM) is OEM version of new generation, dual GNSS antenna, fully-integrated, combined GPS, GLONASS, GALILEO and BEIDOU GNSS and high-performance strapdown system, that determines position, velocity and absolute orientation (Heading, Pitch and Roll) for any device on which it is mounted. Horizontal and Vertical Position, Velocity, Dual Antenna Heading, Pitch & Roll are determined with high accuracy for both motionless and dynamic applications.
The Dilabs GPS-Aided Inertial Navigation System (INS-B-OEM) is OEM version of new generation, fully-integrated, combined GPS, GLONASS, GALILEO and BEIDOU GNSS and high-performance strapdown system, that determines position, velocity and absolute orientation (Heading, Pitch and Roll) for any device on which it is mounted. Horizontal and Vertical Position, Velocity and Orientation are determined with high accuracy for both motionless and dynamic applications.
Inertial Labs Attitude and Heading Reference System, AHRS-10 is a high-performance strapdown system that determines absolute orientation (heading, pitch and roll) for any device on which it is mounted. Orientation is determined with high accuracy for both motionless and dynamic applications.
The Dilabs Attitude and Heading Reference System, AHRS-10 is a high-performance strapdown system that determines absolute orientation (heading, pitch and roll) for any device on which it is mounted. Orientation is determined with high accuracy for both motionless and dynamic applications.
The Dilabs Attitude and Heading Reference Systems, AHRS-II is the next generation of enhanced, highperformance strapdown systems that determines absolute orientation (Heading, Pitch and Roll) for any device on which it is mounted. Orientation is determined with high accuracy for both motionless and dynamic applications.
Developed by Dilabs, the Optically-enhanced Attitude and Heading Reference System – OptoAHRSTM-II is a small size, lower power consumption, precise North-finding and North-keeping system. It combines technologies of inertial sensors with optical image tracking resulting in a robust and reliable 3DOF orientation module capable of operation in virtually any environment.
Developed by Dilabs, the Optically-enhanced Attitude and Heading Reference System – OptoAHRSTM-II is a small size, lower power consumption, precise North-finding and North-keeping system. It combines technologies of inertial sensors with optical image tracking resulting in a robust and reliable 3DOF orientation module capable of operation in virtually any environment.
The Dilabs has developed Motion Reference Units (MRU) to meet requirements from marine and hydrographic applications. MRU is enhanced, high-performance strapdown Motion Sensor, that determines Pitch & Roll, Heave, Sway, Surge, Accelerations, Angular rates, Heading, Velocity and Positions for any device on which it is mounted.
The Dilabs has developed professional version of Motion Reference Units (MRU-PD) to meet requirements from marine and hydrographic applications. MRU-PD is enhanced, high-performance strapdown Motion Sensor – affordable solution for survey, that determines Pitch & Roll, Heave, Sway, Surge, Accelerations, Angular rates, Heading, Velocity and Positions for any device on which it is mounted.
The Dilabs has developed Wave Sensors (WS) to meet industry wave statistics requirements and also generates the spectral data as a complete set of Fourier coefficients and energies. Wave Sensors (WS) are an enhanced, high-performance strapdown Wave, Direction & Motion Sensors, that determines Significant Wave Height, Max Wave Height, Wave Period, Wave Direction, Wave Energy, Directional Width, Fourier Coefficients, Mean Spread Angle, Heading, Pitch, Angular Rates, Accelerations, Magnetometer Data, Temperature, Heave, Heave Velocity and Position for any device on which it is mounted.
The Dilabs has developed Wave Sensors (WS) to meet industry wave statistics requirements and also generates the spectral data as a complete set of Fourier coefficients and energies. Wave Sensors (WS) are an enhanced, high-performance strapdown Wave, Direction & Motion Sensors, that determines Significant Wave Height, Max Wave Height, Wave Period, Wave Direction, Wave Energy, Directional Width, Fourier Coefficients, Mean Spread Angle, Heading, Pitch, Angular Rates, Accelerations, Magnetometer Data, Temperature, Heave, Heave Velocity and Position for any device on which it is mounted.
Designed and tested on weapons ranging from the M16 up to mortars and towed artillery, WOM’s unique calibration capabilities and performance make it a one-of-a-kind in inertial 3DOF orientation systems.
OptoWOM-IITM is compact, reliable, low power, light weight, and affordable tactical North seeking and North keeping device, which is developing as alternative Azimuth solution to expensive and high power DTG, FOG, HRG or RLG based Gyrocompasses. OptoWOM-IITM as a hybrid inertial and optical Azimuth and Elevation measuring solution eliminates large errors inherent with classical Digital Magnetic Compass technology.
The world’s smallest 3DOF inertial orientation sensor. With direct output of the orientation solution OS3DM can be embedded directly into the user’s application. Sensor output is provided in either UART TTL or RS-485 protocol allowing for multi-sensor chaining. No other sensor is close in size, performance, and cost.
