Litcius/Paper detail

Quaternion-Based Iterative Extended Kalman Filter for Sensor Fusion of Vision Sensor and IMU in 6-DOF Displacement Monitoring

Haemin Jeon, Jiyoung Min, Hyuntae Bang, Wonkeun Youn

2022IEEE Sensors Journal12 citationsDOI

Abstract

As civil structures are exposed to various external loads, their periodic evaluation is paramount to ensure their safety. By estimating the 6-degree-of-freedom (DOF) displacement of structures, structural behavior can be monitored directly. Therefore, this study aims to develop a translational and rotational displacement estimation method by fusing a vision sensor and inertial measurement unit (IMU) using a quaternion-based iterative extended Kalman filter (QIEKF). The QIEKF algorithm was applied to reduce the nonlinear influence on the measurement model. The 6-DOF displacement is predicted using the integral of the gyroscope output and updated via a combination of an accelerometer and a magnetometer through a vector matching process in the Kalman filter framework. Subsequently, the 6-DOF displacement estimation result is updated through a vision sensor using a 2-D planar marker and homography transformation in the Kalman filter framework. The performance of the proposed sensor fusion method was verified with experiments using a motorized motion stage, and the results show that the displacements can be estimated with high accuracy regardless of measurement noise and slowly varying signal drift.

Topics & Concepts

Inertial measurement unitKalman filterControl theory (sociology)GyroscopeAccelerometerDisplacement (psychology)Computer visionQuaternionNoise (video)Sensor fusionComputer scienceArtificial intelligenceExtended Kalman filterEngineeringMathematicsOperating systemImage (mathematics)PsychotherapistGeometryControl (management)PsychologyAerospace engineeringInertial Sensor and NavigationStructural Health Monitoring TechniquesIndoor and Outdoor Localization Technologies