期刊名称:ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences
印刷版ISSN:2194-9042
电子版ISSN:2194-9050
出版年度:2010
卷号:XXXVIII - Part 1
出版社:Copernicus Publications
摘要:Optical imagery and range data can be registered to create photo-realistic scene models via texture mapping. Presented in this paper is an alternative approach where true colour (RBG) point clouds are generated by automatically fusing a close-range optical (RGB) image acquired with an uncalibrated digital camera with the corresponding high-density 3D lidar point cloud collected with a terrestrial laser scanner (TLS). The alignment of optical pixel colour values and lidar point cloud is obtained by estimating the position and orientation of the camera with respect to the lidar point cloud reference system. To perform this sensor co-registration, an automated corner feature extraction algorithm, followed by area-based image matching is applied between the optical data and the lidar intensity image to establish point correspondence. The matching process is solely based on point matches and does not use external control or calibration patterns. The 3D lidar points of the corresponding lidar intensity image corner points are then extracted from the point cloud. As these 3D lidar points correspond to the extracted optical image corner points, a bundle self- calibration adjustment with additional parameters is applied using the extended collinearity equations to estimate the interior and exterior orientation of the camera. The RANSAC robust estimator is used to reduce the influence of outliers in the estimation of the camera parameters. Having established the mathematical relationship between image space and lidar points a photo-realistic 3D model is generated. Through reverse mapping, each point in the lidar point cloud is assigned the RGB value of the image pixel upon which it is projected. Experiments are performed observing typical urban scenes, particularly building facades. The feasibility and potential of estimating the co-registration parameters using a TLS is evaluated in terms of accuracy of the results. The true calibration parameters, provided by the TLS manufacturer, are used in the validation of the registration parameters. The technique has reliably aligned a camera with the TLS geometry for the simultaneous generation of point based photo-realistic 3D models
关键词:Terrestrial Laser Scanning; Photogrammetry; Sensor Registration; Point Texture Mapping
