GPS-Aided Inertial Navigation Systems (INS)
The INS was unveiled in 2001 when Inertial Labs started manufacturing its first MEMS-based, IP67 and IP68 sealed and OEM versions, MIL-STD-810G qualified multiple interfaces and COM ports Single and Dual Antenna GPS-Aided Inertial Navigation Systems (INS). Each INS contains an Inertial Labs developed Tactical or Industrial-grade Inertial Measurement Units (IMU) and reliable single or dual GNSS receivers from suppliers like NovAtel, u-blox and Septentrio.
The professional model of INS, the INS-P, utilizes an embedded, high-precision, gyro-compensated magnetic compass, which allows the navigation system to measure and output high-precision Heading without GNSS signal even in extreme environmental conditions (temperature, vibration, interference from external magnetic field).
The Inertial Labs team of skilled engineers provides expertise to help users select and configure from the available models. Our support team helps set up units for all application bases to satisfy GNSS-enabled and GNSS-denied environments.
INS Models
MODEL | |||||||||
CheetahNAV | INS-U | INS-B | INS-P | INS-BU | INS-D | INS-DL | INS-DU | INS-DM | |
Single or Dual Antenna | Single Antenna | Single Antenna | Single Antenna | Single Antenna | Dual Antenna | Dual Antenna | Dual Antenna | Dual Antenna | |
Tactical Navigation System | GPS-Aided INS with Air Data Computer | Basic Single GNSS Antenna Inertial Navigation System | Professional Single GNSS Antenna | Single Antenna u-blox GNSS Inertial Navigation System | Dual GNSS Antenna Inertial Navigation System | Low Cost Dual GNSS Antenna Inertial Navigation System | Dual Antenna u-blox GNSS Inertial Navigation System | Dual GNSS Antenna Inertial Navigation System | |
Heading Accuracy | 3 MIL (INS-B); 1 MIL (INS-D) | 0.6° static / 0.3° dynamic | 1° static / 0.1° dynamic | 0.3° static / 0.1° dynamic | 0.6° static / 0.3° dynamic | 0.08° (2m baseline) / 0.15° (1m baseline) | 0.2° (2m baseline) / 0.4° (1m baseline) | 0.2° (2m baseline) / 0.4° (1m baseline) | 0.08° |
Position Accuracy | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 1cm (RTK) | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 1cm (RTK), 40cm (DGPS) |
Pitch & Roll Accuracy | 0.5 MIL | 0.05° dynamic, 0.08° static | 0.03° dynamic, 0.05° static | 0.03° dynamic, 0.05° static | 0.05° dynamic, 0.08° static | 0.03° dynamic, 0.05° static | 0.04° dynamic, 0.08° static | 0.05° dynamic, 0.08° static | 0.01° Dynamic |
GNSS Constellations | BDS, GAL, GLO, GPS, QZSS, IRNSS (NavIC) | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS |
Corrections | DGPS, PPK, PPP, RTK, SBAS | DGPS, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | PPK, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | PPK, RTK, SBAS | PPK, RTK, SBAS | DGPS, PPK, RTK |
Type of IMU | MEMS, Tactical-grade, FOG IMU Optional | MEMS | MEMS, Tactical-grade | MEMS, Tactical-grade | MEMS, Industrial-grade | MEMS, Tactical-grade | MEMS, Industrial-grade | MEMS, Industrial-grade | HG4930, IMU-NAV, IMU-P, Kernel IMU |
Magnetometer | External Magnetic Compass (optional) | Embedded Mini-Fluxgate Magnetometer | External Magnetic Compass (optional) | Embedded Fluxgate Magnetic Compass | Embedded Mini-Fluxgate Magnetometer | External Magnetic Compass (optional) | External Magnetic Compass (optional) | Embedded Fluxgate Magnetic Compass | Embedded or External Magnetic Compass |
Other Features | Battle management system integration, Freeform messaging Anti GNSS spoofing and jamming, Additional displays | Static & Dynamic Pressure, Airspeed, Mach Number, True Angle of Attack (ADC) | Tactical Grade IMU, Advanced, extendable, embedded Kalman Filter with sensor fusion algorithms | All INS-B features + Fluxgate Gyro-Compensated Compass (Magnetometer) – high performance in longterm GPS-Denied environment |
Affordable price, u-blox all-constellation GNSS, RTK |
All INS-B features + high-precision dual GNSS Heading (HDT) | Affordable price, Industrial Grade IMU |
Affordable price, u-blox all-constellation GNSS, RTK |
MIL-STD-1275, ADC, Encoder, Datalogger, Variable PPS |
Size (mm) |
MDU: 322 x 233 x 50 DDU: 128 x 100 x 34 INS: 120 x 50 x 53 |
82 x 40 x 26 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120 x 50 x 53 | 149 x 61 x 141 |
Weight (gram) |
MDU: 4050 DDU: 650 INS-B: 220 INS-D: 320 |
200 | 220 | 280 | 320 | 320 | 320 | 320 | 1060 - 1300 |
Applications | Land Vehicle Navigation in GNSS-Enabled and GNSS-Denied Environments | Fixed Wing UAV Flight Control and Navigation in longterm GNSS-Denied | UGV; Land Vehicle Navigation; Lightweight AGV; Post Processed Imagery | Extended GNSS-Denied Navigation; UAS; North Finding & Keeping | Low-Cost Precision Agriculture; Low-Cost Land Vehicle Navigation | Heavy Vehicle Guidance; Land Vehicle Navigation; Fixed Wing Navigation | Antenna Pointing; Low Cost Position and Velocity; Industrial Navigation | Low-Cost GNSS-Denied Navigation; Low-Cost Survey and Scanning System | UGV, Land Vehicle, Fixed Wing UAV, Helicopter Extended GNSS-Denied Navigation |
Model | CheetahNAV | INS-U | INS-B | INS-P | INS-BU | INS-D | INS-DL | INS-DU | INS-DM |
Datasheet |
MODEL | |||||||||
CheetahNAV | INS-U | INS-B | INS-P | INS-BU | INS-D | INS-DL | INS-DU | INS-DM | |
Single or Dual Antenna | Single Antenna | Single Antenna | Single Antenna | Single Antenna | Dual Antenna | Dual Antenna | Dual Antenna | Dual Antenna | |
Tactical Navigation System | GPS-Aided INS with Air Data Computer | Basic Single GNSS Antenna Inertial Navigation System | Professional Single GNSS Antenna | Single Antenna u-blox GNSS Inertial Navigation System | Dual GNSS Antenna Inertial Navigation System | Low Cost Dual GNSS Antenna Inertial Navigation System | Dual Antenna u-blox GNSS Inertial Navigation System | Dual GNSS Antenna Inertial Navigation System | |
Heading Accuracy | 3 MIL (INS-B); 1 MIL (INS-D) | 0.6° static / 0.3° dynamic | 1° static / 0.1° dynamic | 0.3° static / 0.1° dynamic | 0.6° static / 0.3° dynamic | 0.08° (2m baseline) / 0.15° (1m baseline) | 0.2° (2m baseline) / 0.4° (1m baseline) | 0.2° (2m baseline) / 0.4° (1m baseline) | 0.08° |
Position Accuracy | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 1cm (RTK) | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 1cm (RTK), 40cm (DGPS) |
Pitch & Roll Accuracy | 0.5 MIL | 0.05° dynamic, 0.08° static | 0.03° dynamic, 0.05° static | 0.03° dynamic, 0.05° static | 0.05° dynamic, 0.08° static | 0.03° dynamic, 0.05° static | 0.04° dynamic, 0.08° static | 0.05° dynamic, 0.08° static | 0.01° Dynamic |
GNSS Constellations | BDS, GAL, GLO, GPS, QZSS, IRNSS (NavIC) | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS |
Corrections | DGPS, PPK, PPP, RTK, SBAS | DGPS, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | PPK, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | PPK, RTK, SBAS | PPK, RTK, SBAS | DGPS, PPK, RTK |
Type of IMU | MEMS, Tactical-grade, FOG IMU Optional | MEMS | MEMS, Tactical-grade | MEMS, Tactical-grade | MEMS, Industrial-grade | MEMS, Tactical-grade | MEMS, Industrial-grade | MEMS, Industrial-grade | HG4930, IMU-NAV, IMU-P, Kernel IMU |
Magnetometer | External Magnetic Compass (optional) | Embedded Mini-Fluxgate Magnetometer | External Magnetic Compass (optional) | Embedded Fluxgate Magnetic Compass | Embedded Mini-Fluxgate Magnetometer | External Magnetic Compass (optional) | External Magnetic Compass (optional) | Embedded Fluxgate Magnetic Compass | Embedded or External Magnetic Compass |
Other Features | Battle management system integration, Freeform messaging Anti GNSS spoofing and jamming, Additional displays | Static & Dynamic Pressure, Airspeed, Mach Number, True Angle of Attack (ADC) | Tactical Grade IMU, Advanced, extendable, embedded Kalman Filter with sensor fusion algorithms | All INS-B features + Fluxgate Gyro-Compensated Compass (Magnetometr) – high performance in longterm GPS-Denied environment |
Affordable price, u-blox all-constellation GNSS, RTK |
All INS-B features + high-precision dual GNSS Heading (HDT) | Affordable price, Industrial Grade IMU |
Affordable price, u-blox all-constellation GNSS, RTK |
MIL-STD-1275, ADC, Encoder, Datalogger, Variable PPS |
Size (mm) |
MDU: 322 x 233 x 50 DDU: 128 x 100 x 34 INS: 120 x 50 x 53 |
82 x 40 x 26 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120.5 x 53.2 x 49.3 | 120 x 50 x 53 | 149 x 61 x 141 |
Weight (gram) |
MDU: 4050 DDU: 650 INS-B: 220 INS-D: 320 |
200 | 220 | 280 | 320 | 320 | 320 | 320 | 1060 - 1300 |
Applications | Land Vehicle Navigation in GNSS-Enabled and GNSS-Denied Environments | Fixed Wing UAV Flight Control and Navigation in longterm GNSS-Denied | UGV; Land Vehicle Navigation; Lightweight AGV; Post Processed Imagery | Extended GNSS-Denied Navigation; UAS; North Finding & Keeping | Low-Cost Precision Agriculture; Low-Cost Land Vehicle Navigation | Heavy Vehicle Guidance; Land Vehicle Navigation; Fixed Wing Navigation | Antenna Pointing; Low Cost Position and Velocity; Industrial Navigation | Low-Cost GNSS-Denied Navigation; Low-Cost Survey and Scanning System | UGV, Land Vehicle, Fixed Wing UAV, Helicopter Extended GNSS-Denied Navigation |
Model | CheetahNAV | INS-U | INS-B | INS-P | INS-BU | INS-D | INS-DL | INS-DU | INS-DM |
Datasheet |
INS OEM Models
MODEL | ||||||||
INS-B-OEM | INS-P-OEM | INS-U-OEM | INS-BU-OEM | INS-D-OEM | INS-DL-OEM | INS-DU-OEM | INS-DH-OEM | |
Single Antenna | Single Antenna | Single Antenna | Single Antenna | Dual Antenna | Dual Antenna | Dual Antenna | Dual Antenna | |
Basic Single GNSS Antenna OEM INS | Professional Single GNSS Antenna OEM INS | GPS-Aided OEM INS with Air Data Computer | Single Antenna u-blox GNSS OEM INS | Dual GNSS Antenna OEM INS | Low Cost Dual GNSS Antenna OEM INS | Dual Antenna u-blox GNSS OEM INS | Dual GNSS Antenna OEM INS with Honeywell HG4930 IMU | |
Heading Accuracy | 1° static / 0.1° dynamic / 0.03° (PPK) | 0.4° static / 0.1° dynamic / 0.03° (PPK) | 0.6° static / 0.3° dynamic | 0.6° static / 0.3° dynamic / 0.1° (PPK) | 0.08° (2m baseline) / 0.03° (PPK) | 0.2° (2m baseline) / 0.1° (PPK) | 0.2° (2m baseline) / 0.1° (PPK) | 0.05° (2m baseline) / 0.015° (PPK) |
Position Accuracy | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 1cm (RTK) | 1cm (RTK) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) |
Pitch & Roll Accuracy | 0.05° static / 0.03° dynamic / 0.006° (PPK) | 0.05° static / 0.03° dynamic / 0.006° (PPK) | 0.08° static / 0.05° dynamic | 0.08° static / 0.05° dynamic | 0.05° static / 0.03° dynamic / 0.006° (PPK) | 0.08° static / 0.04° dynamic / 0.01° (PPK) | 0.08° static / 0.05° dynamic / 0.03° (PPK) | 0.02° static / 0.01° dynamic / 0.002° (PPK) |
GNSS Constellations | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GPS, GLO, NAVIC, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, NavIC (IRNSS), QZSS |
Corrections | DGPS, PPK, PPP, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | RTK | RTK | DGPS, PPK, PPP, RTK, SBAS | PPK, RTK, SBAS | PPK, PPP, RTK, SBAS | PPK, PPP, RTK, SBAS |
Type of IMU | MEMS, Tactical-grade | MEMS, Tactical-grade | MEMS | MEMS | MEMS, Tactical-grade | MEMS, Industrial-grade | MEMS, Industrial-grade | MEMS, Tactical-grade |
Magnetometer | External Magnetic Compass (optional) | Embedded Fluxgate Magnetic Compass | Embedded Mini-Fluxgate Magnetometers | Embedded Mini-Fluxgate Magnetometers | External Magnetic Compass (optional) | External Magnetic Compass (optional) | Internal Mini-FG Magnetic Compass | External Magnetic Compass (optional) |
Size (mm) | 85.5 x 47.7 x 39.4 | 85.5 x 47.7 x 46.9 | 65.0 x 37.2 x 19.9 | 85.5 x 47.7 x 39.3 | 85.5 x 47.7 x 40.2 | 85.5 x 47.7 x 40.0 | 85.5 x 47.7 x 39.3 | 85.5 x 67.5 x 52.0 |
Weight (gram) | 174 | 174 | 100 | 174 | 184 | 184 | 174 | 280 |
Applications | Remote Sensing; Real Time UAV Scanning; Aerial Surveying; Integrated LiDAR Payload | Scanning & Surveying; Integrated Payloads; Fixed-Wing Aerial Navigation | Multirotor, Fixed Wing UAV Flight Control and Navigation | Remote Sensing; Real Time UAV Scanning; Aerial Surveying; Integrated LiDAR Payload | Integrated Land Vehicle Navigation; Fixed Wing Navigation; Integrated Aiming | Low Cost Aiming; Precision Agriculture; Industrial Heading Stabilization | Low-Cost Integrated Land Vehicle Navigation; Low Cost Aiming | Flight Control; Remote Sensing; Photogrammetry |
Model | INS-B-OEM | INS-P-OEM | INS-U-OEM | INS-BU-OEM | INS-D-OEM | INS-DL-OEM | INS-DU-OEM | INS-DH-OEM |
Datasheet |
MODEL | ||||||||
INS-B-OEM | INS-P-OEM | INS-U-OEM | INS-BU-OEM | INS-D-OEM | INS-DL-OEM | INS-DU-OEM | INS-DH-OEM | |
SIngle Antenna | SIngle Antenna | SIngle Antenna | SIngle Antenna | Dual Antenna | Dual Antenna | Dual Antenna | Dual Antenna | |
Basic Single GNSS Antenna OEM INS | Professional Single GNSS Antenna OEM INS | GPS-Aided OEM INS with Air Data Computer | Single Antenna u-blox GNSS OEM INS | Dual GNSS Antenna OEM INS | Low Cost Dual GNSS Antenna OEM INS | Dual Antenna u-blox GNSS OEM INS | Dual GNSS Antenna OEM INS with Honeywell HG4930 IMU | |
Heading Accuracy | 1° static / 0.1° dynamic / 0.03° (PPK) | 0.4° static / 0.1° dynamic / 0.03° (PPK) | 0.6° static / 0.3° dynamic | 0.6° static / 0.3° dynamic / 0.1° (PPK) | 0.08° (2m baseline) / 0.03° (PPK) | 0.2° (2m baseline) / 0.1° (PPK) | 0.2° (2m baseline) / 0.1° (PPK) | 0.05° (2m baseline) / 0.015° (PPK) |
Position Accuracy | 1cm (RTK), 2.5cm (PPP), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 1cm (RTK) | 1cm (RTK) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) | 0.5cm (PPK), 1cm (RTK), 60cm (SBAS) |
Pitch & Roll Accuracy | 0.05° static / 0.03° dynamic / 0.006° (PPK) | 0.05° static / 0.03° dynamic / 0.006° (PPK) | 0.08° static / 0.05° dynamic | 0.08° static / 0.05° dynamic | 0.05° static / 0.03° dynamic / 0.006° (PPK) | 0.08° static / 0.04° dynamic / 0.01° (PPK) | 0.08° static / 0.05° dynamic / 0.03° (PPK) | 0.02° static / 0.01° dynamic / 0.002° (PPK) |
GNSS Constellations | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GPS, GLO, NAVIC, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, QZSS | BDS, GAL, GLO, GPS, NavIC (IRNSS), QZSS |
Corrections | DGPS, PPK, PPP, RTK, SBAS | DGPS, PPK, PPP, RTK, SBAS | RTK | RTK | DGPS, PPK, PPP, RTK, SBAS | PPK, RTK, SBAS | PPK, PPP, RTK, SBAS | PPK, PPP, RTK, SBAS |
Type of IMU | MEMS, Tactical-grade | MEMS, Tactical-grade | MEMS | MEMS | MEMS, Tactical-grade | MEMS, Industrial-grade | MEMS, Industrial-grade | MEMS, Tactical-grade |
Magnetometer | External Magnetic Compass (optional) | Embedded Fluxgate Magnetic Compass | Embedded Mini-Fluxgate Magnetometers | Embedded Mini-Fluxgate Magnetometers | External Magnetic Compass (optional) | External Magnetic Compass (optional) | Internal Mini-FG Magnetic Compass | External Magnetic Compass (optional) |
Size (mm) | 85.5 x 47.7 x 39.4 | 85.5 x 47.7 x 46.9 | 65.0 x 37.2 x 19.9 | 85.5 x 47.7 x 39.3 | 85.5 x 47.7 x 40.2 | 85.5 x 47.7 x 40.0 | 85.5 x 47.7 x 39.3 | 85.5 x 67.5 x 52.0 |
Weight (gram) | 174 | 174 | 100 | 174 | 184 | 184 | 174 | 280 |
Applications | Remote Sensing; Real Time UAV Scanning; Aerial Surveying; Integrated LiDAR Payload | Scanning & Surveying; Integrated Payloads; Fixed-Wing Aerial Navigation | Multirotor, Fixed Wing UAV Flight Control and Navigation | Remote Sensing; Real Time UAV Scanning; Aerial Surveying; Integrated LiDAR Payload | Integrated Land Vehicle Navigation; Fixed Wing Navigation; Integrated Aiming | Low Cost Aiming; Precision Agriculture; Industrial Heading Stabilization | Low-Cost Integrated Land Vehicle Navigation; Low Cost Aiming | Flight Control; Remote Sensing; Photogrammetry |
Model | INS-B-OEM | INS-P-OEM | INS-U-OEM | INS-BU-OEM | INS-D-OEM | INS-DL-OEM | INS-DU-OEM | INS-DH-OEM |
Datasheet |
FOG INS Models
FOG IMU-based GPS-Aided Inertial Navigation System with Embedded ADC
The newest Inertial Navigation System (INS) from Inertial Labs, the INS-FI, is a GPS-aided system that incorporates several integrated technologies: FOG IMU (Fiber Optic Gyroscope Inertial Measurement Unit), AHRS (Attitude and Heading Reference System), INS (Inertial Navigation System), and an Embedded ADC (Air Data Computer). These technologies work together to provide highly accurate and reliable navigation and orientation data, even in challenging environments.
MODEL | ||
INS-FI | INS-DM-FI | |
Fiber Optic Gyroscopes (FOG) IMU-based GPS-Aided Inertial Navigation System with Embedded ADC | Fiber Optic Gyroscopes (FOG) IMU-based AHRS and Inertial Navigation System with Embedded ADC | |
Heading Accuracy | 0.08° | 0.08° |
Position Accuracy | 1cm (RTK), 40cm (DGPS) | 1cm (RTK), 40cm (DGPS) |
Pitch & Roll Accuracy | 0.01° Dynamic | 0.01° Dynamic |
GNSS Constellations | BDS, GAL, GLO, GPS, NavIC (IRNSS), QZSS | BDS, GAL, GLO, GPS, NavIC (IRNSS), QZSS |
Corrections | PPK, PPP, RTK, SBAS | PPK, PPP, RTK, SBAS |
Magnetometer | External Magnetic Compass (optional) | External Magnetic Compass (optional) |
Size (mm) | D88.9 x H127.5 | 160 x 149 x 96 |
Weight (gram) | 950 | 2100 |
Applications | Tactical Navigation. Medium accuracy gyrocompassing. | Tactical Navigation. Medium accuracy gyrocompassing. |
Model | INS-FI | INS-DM-FI |
Datasheet PDF |
Navigation in GNSS-Denied Environment
Air Data Computer (ADC) for VTOL and Fixed-Wing UAV
Inertial Labs supply GPS-Aided Inertial Navigation Systems, tightly integrated with ADC (Air Data Computer) for operation of VTOL and Fixed-wing UAV in GPS-denied environment.
MODEL | |
ADC | |
Air Data Computer | |
Pressure Sensor Measurement Range | ±25; ±600; ±4000 mbar |
Baro-Corrected Pressure Altitude | -500 to 9000 meters; Accuracy: 1 |
True Airspeed | 5 to 64 meters/sec (310 meters/sec is optional); Accuracy: 0.5 |
Outside Air Temperature (OAT) | -40 to +85 degC; Resolution 0.01 |
Size (mm) | 73.5 × 55.0 × 29.5 |
Weight (gram) | 130 |
Applications | UAV |
Output Interface | RS-232, RS-422 |
Model | ADC |
Datasheet |
Digital Wind Sensor (DWS) for Multirotor and Helicopter UAV
MODEL | |
FT743-SM | |
Digital Wind Sensor | |
Output data | Airspeed and its direction relative to body |
Airspeed range (m/s) | 0 to 75 |
Airspeed accuracy |
±0.3m/s (0-16m/s); ±2% (16-40m/s); ±4% (40-75m/s). |
Airspeed resolution (m/s) | 0.1 |
Temperature range | -40°C to +85°C; 0 to 4000 m altitude |
Size (mm) | D56.0 x H71.2 |
Weight (gram) | 252 |
Output interface | RS-422, RS-485 |
Model | FT743-SM |
Datasheet |
Use Cases for the Inertial Navigation System
Remote Sensing with LiDAR
Sometimes called a 3D laser scanner, LiDAR is a surveying method that measures the distance to a target by illuminating the target with pulsed laser light and measuring the reflected pulses with a sensor. It has terrestrial, airborne, and mobile applications. Some models of 3D LiDAR can generate up to 700,000 data points per second. There are plenty of exceptional producers on the market, for example, Quanergy® (2) and Velodyne®.
Scanning and Mapping
Perhaps area mapping is still the most eminent domain for remote sensing. Making sense of the physical world by analyzing maps and 3D models allows businesses to make faster and more informed decisions that increase efficiency and profit and, more importantly, improve safety. A few of the most often used bases can be on our land vehicles or Unmanned Aerial Vehicles (UAV).
Unmanned Aerial Vehicles (UAV)
Disaster response and mitigation is an increasingly successful market for autopilot suppliers. The INS has been consistently used with Unmanned Aerial Vehicles in GPS-enabled or GPS-Denied environments. Whether putting out forest fires or identifying and responding to personnel in critical condition, the Veronte Autopilot (integrated Inertial Labs INS-P solution) can handle long mission profiles while carrying large payloads in GNSS-denied environments.
Navigation of Autonomous Vehicles
The Inertial Navigation System is the most robust navigation sensor on the market. Use the INS as an independent navigation sensor or easily integrate with other sensors for which the INS has been adapted, such as LiDAR, Doppler Radar, Stereo Cameras, echo sounders, and many more. These useful integrations provide a robust solution for even the most difficult-to-navigate urban environments.
GPS-Denied Navigation for Unmanned Ground Vehicles (UGV)
Inertial Labs recently released an improved navigation algorithm that increases navigational accuracy for Ground Vehicles in GNSS-Denied environments. This “Tunnel Guide” feature has been proven through trials and testing to result in a position accuracy of 0.2% over Distance Travelled (DT) in GNSS-denied environments. Data also supports that with the injection of aiding information from other onboard sensors, such as an odometer, airspeed sensor, or wind speed sensor, the Inertial Navigation System can produce position accuracy as low as 0.05% over DT.
Autonomous Ground Vehicles (AGV)
Precision Agriculture, an industry on the rise for Autonomous Ground Vehicles, is one of this century’s most used cases of autonomy. Recent reports show that by 2025, Precision Agriculture is expected to grow to become a 43.4-billion-dollar industry worldwide. For an industry that didn’t begin gaining traction until the 1990s, it’s a pretty impressive market. The INS-DL and INS-D have been popular solutions for AGVs in the industrial and military sectors for their exceptional navigation performance.
Remotely Operated Vehicles (ROV)
ROVs are an ideal platform for the INS. These platforms have taken advantage of the advanced MEMS-based navigation features of the Inertial Labs INS. Until recently, this market was only accessible for Fiber Optic Gyroscope-based (FOG) inertial sensors. However, with improved calibration procedures and methods for precision machining utilized between MEMS-sensitive elements, the Inertial Labs INS can compete with FOG units in performance and reliability.
Supported Hardware Integrations
The Inertial Labs Navigation System has been designed to be compatible with several solutions. Autopilot platforms such as Pixhawk or Veronte by Embention (distributed by Northwest UAV) give users precision accuracy at a fraction of the cost, plus the added functionality of each system.
Custom output formats support users with the ability to communicate directly with the Cobham Aviator UAV 200. Additionally, the INS can be used with LiDAR scanners, Sonars, and Optical Cameras.
INS Supported Software
Inertial Labs supplies drivers and tools for easy integration with commonly used platforms such as ROS, LabVIEW, and Waypoint products. Additionally, take advantage of the Software Development Kit to create custom solutions for your application.
SDK
A Software Development Kit (SDK) allows developers to customize the processing workflow to suit their customers or application.
Post-processing is ideal for applications requiring highly accurate post-mission position, velocity, or attitude.
LabVIEW
ROS
ROS (Robot Operating System) is an open-source software development kit for robotics applications. ROS offers a standard software platform to developers across industries that will carry them from research and prototyping to deployment and production.
Performance Characteristics for the INS
GPS-Denied Navigation (Tunnel Guide) Performance
Read results of the GPS-Denied Navigation Performance Test in our Tunnel Guide White Paper.
Tactical IMU Gyroscope Bias Allan Variance Test
Tactical IMU Accelerometer Bias Allan Variance Test
INS Heading, Pitch and Roll Accuracy (INS-B/P/D)
Development Kits and Unboxing
IP67 Development Kit
OEM Development Kit
Unboxing and Connect INS-D
INS Products Catalog 2024
Trademark Legal Notice: All product names, logos, and brands are the property of their respective owners. All company, product, and service names used in this document are for identification purposes only. Use of these names, logos, and brands does not imply endorsement. ABS, BeiDou, Cobham Limited, EdgeTech, Galileo, GLONASS, GPS, Hexagon, HYPACK, IMAGENEX, Kongsberg Seatex, LabVIEW, Livox, Norbit, NovAtel, NovAtel Inertial Explorer, Ouster, Qinsy, Quanergy, QZSS, R2Sonic, RIEGL, ROCK Robotic, ROS, Septentrio, Ship Motion Control SMC, Teledyne TSS, u-blox, Velodyne, WAASP, Waypoint.