Litcius/Paper detail

Online Extrinsic Calibration Based on Per-Sensor Ego-Motion Using Dual Quaternions

Markus Horn, Thomas Wodtko, Michael Buchholz, Klaus Dietmayer

2021IEEE Robotics and Automation Letters35 citationsDOIOpen Access PDF

Abstract

In this work, we propose an approach for extrinsic sensor calibration from per-sensor ego-motion estimates. Our problem formulation is based on dual quaternions, enabling two different online capable solving approaches. We provide a certifiable globally optimal and a fast local approach along with a method to verify the globality of the local approach. Additionally, means for integrating previous knowledge, for example, a common ground plane for planar sensor motion, are described. Our algorithms are evaluated on simulated data and on a publicly available dataset containing RGB-D camera images. Further, our online calibration approach is tested on the KITTI odometry dataset, which provides data of a lidar and two stereo camera systems mounted on a vehicle. Our evaluation confirms the short run time, state-of-the-art accuracy, as well as online capability of our approach while retaining the global optimality of the solution at any time.

Topics & Concepts

Computer visionComputer scienceArtificial intelligenceCalibrationVisual odometryOdometryPiecewiseQuaternionDual (grammatical number)PlanarAlgorithmGlobalityLidarBoundary (topology)Ground planeStereopsisKey (lock)Ground truthSensor fusionPlane (geometry)Camera resectioningGlobal MapBundle adjustmentRobotics and Sensor-Based LocalizationAdvanced Vision and ImagingOptical measurement and interference techniques