Inertial Measurement Unit – IMU Sensor

SBG Systems offers a wide line of IMU / INS, whether your applications requirements are size or performance.

Ellipse Micro

Smallest & Economical IMU, AHRS, INS

  • Roll/Pitch: 0.1°
  • Heading: Magnetic or GNSS
  • Position: With External GNSS

 

DISCOVER THE ELLIPSE MICRO SENSORS ››

Ellipse Series

Most Advanced Miniature IMU, AHRS, INS/GNSS

  • Roll/Pitch: 0.1°
  • Heading: Magnetic or GNSS
  • Position: Meter or Centimeter-level

 

DISCOVER ALL ELLIPSE SENSORS ››

Ekinox Series

Advanced & Compact Inertial Systems

  • Roll/Pitch: 0.02° (RTK)
  • Heading: GNSS based
  • Position: Centimeter-level

 

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Apogee Series

The Highest Accuracy INS/GNSS & MRU

  • Roll/Pitch: 0.008° (RTK)
  • Heading: GNSS based
  • Position: Centimeter-level

 

DISCOVER THE APOGEE SOLUTION ››

Ellipse Micro

Smallest & Economical IMU, AHRS, INS

  • Roll/Pitch: 0.1°
  • Heading: Magnetic or GNSS
  • Position: With External GNSS

 

DISCOVER THE ELLIPSE MICRO SENSORS ››

Ellipse Series

Most Advanced Miniature IMU, AHRS, INS/GNSS

  • Roll/Pitch: 0.1°
  • Heading: Magnetic or GNSS
  • Position: Meter or Centimeter-level

 

DISCOVER ALL ELLIPSE SENSORS ››

Ekinox Series

Advanced & Compact Inertial Systems

  • Roll/Pitch: 0.02° (RTK)
  • Heading: GNSS based
  • Position: Centimeter-level

 

DISCOVER THE EKINOX SERIES ››

Apogee Series

The Highest Accuracy INS/GNSS & MRU

  • Roll/Pitch: 0.008° (RTK)
  • Heading: GNSS based
  • Position: Centimeter-level

 

DISCOVER THE APOGEE SOLUTION ››

What is an Inertial Measurement Unit (IMU)?

An Inertial Measurement Unit is composed of 3 accelerometers, 3 gyroscopes, and depending on the heading requirement – 3 magnetometers.

Raw data are outputted at 1KHz for demanding real-time applications.

 

What Difference with an Inertial Navigation System ?

The Inertial Navigation System additionally embeds a GPS/GNSS and fuses inertial, navigation, and aiding data (odometer, dvl, etc.) thanks to an Extended Kalman Filter to provide roll, pitch, heading, position, and velocity.

Resources

ARGOS UGV

Autonomous Robot Challenge

The amazing VIKINGS team’s robot  autonomous navigation relies on several sensors: odometry prediction, fused with Ellipse-A inertial sensor information, then c

BOE UAV-based Surveying

BOE UAV-based Surveying

BoE Systems entered the mobile mapping industry with the ELV16 Scanner, the most compact aerial-based LiDAR solution on the market.

Mapping under bridges

Mapping under Bridges

The catamaran survey vessel named «Spreegrund» serves as survey vessel on German lakes, adjacent canals, ...

ARGOS UGV

Autonomous Robot Challenge

The amazing VIKINGS team’s robot  autonomous navigation relies on several sensors: odometry prediction, fused with Ellipse-A inertial sensor information, then c

BOE UAV-based Surveying

BOE UAV-based Surveying

BoE Systems entered the mobile mapping industry with the ELV16 Scanner, the most compact aerial-based LiDAR solution on the market.

Mapping under bridges

Mapping under Bridges

The catamaran survey vessel named «Spreegrund» serves as survey vessel on German lakes, adjacent canals, ...

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