Litcius/Paper detail

Geometric modelling and calibration of a spherical camera imaging system

Derek D. Lichti, David Jarron, Wynand Tredoux, Mozhdeh Shahbazi, Robert Radovanovic

2020The Photogrammetric Record26 citationsDOIOpen Access PDF

Abstract

Abstract The Ladybug5 is an integrated, multi‐camera system that features a near‐spherical field of view. It is commonly deployed on mobile mapping systems to collect imagery for 3D reality capture. This paper describes an approach for the geometric modelling and self‐calibration of this system. The collinearity equations of the pinhole camera model are augmented with five radial lens distortion terms to correct the severe barrel distortion. Weighted relative orientation stability constraints are added to the self‐calibrating bundle adjustment solution to enforce the angular and positional stability between the Ladybug5’s six cameras. Centimetre‐level 3D reconstruction accuracy can be achieved, with image‐space precision and object‐space accuracy improved by 92 % and 93 % , respectively, relative to a two‐term lens distortion model. Sub‐pixel interior orientation stability and millimetre‐level relative orientation stability were also demonstrated over a 10‐month period.

Topics & Concepts

Bundle adjustmentPinhole (optics)Computer visionArtificial intelligenceCamera resectioningCollinearityCalibrationComputer scienceOrientation (vector space)Pinhole camera modelDistortion (music)PixelLens (geology)Camera auto-calibrationOpticsMathematicsPhotogrammetryPhysicsGeometryStatisticsBandwidth (computing)AmplifierComputer networkAdvanced Vision and ImagingOptical measurement and interference techniquesSatellite Image Processing and Photogrammetry