Eliminating the Observer Effect: Shadow Removal in Orthomosaics of the Road Network

Abstract

High resolution images of the road surface can be obtained cheaply and quickly by driving a vehicle around the road network equipped with a camera oriented towards the road surface. If camera calibration information is available and accurate estimates of the camera pose can be made then the images can be stitched into an orthomosaic (i.e. a mosaiced image approximating an orthographic view) providing a virtual top down view of the road network. However, the vehicle capturing the images changes the scene: it casts a shadow onto the road surface that is sometimes visible in the captured images. This causes large artefacts in the stitched orthomosaic. In this paper, we propose a model-based solution to this problem. We capture a 3D model of the vehicle, transform it to a canonical pose and use it in conjunction with a model of sun geometry to predict shadow masks by ray casting. Shadow masks are precomputed, stored in a look up table and used to generate per-pixel weights for stitching. We integrate this approach into a pipeline for pose estimation and gradient domain stitching that we show is capable of producing shadow-free, high quality orthomosaics from uncontrolled, real world datasets.