Abstract
Due to the high complexity of geo-spatial entities and the limited field of view of LiDAR equipment, pairwise registration is a necessary step for integrating point clouds from neighbouring LiDAR stations. Considering that accurate extraction of point features is often difficult without the use of man-made reflectors, and the initial approximate values for the unknown transformation parameters must be estimated in advance to ensure the correct operation of those iterative methods, a closed-form solution to linear feature-based registration of point clouds is proposed in this study. Plücker coordinates are used to represent the linear features in three-dimensional space, whereas dual quaternions are employed to represent the spatial transformation. Based on the theory of least squares, an error norm (objective function) is first constructed by assuming that each pair of corresponding linear features is equivalent after registration. Then, by applying the extreme value analysis to the objective function, detailed derivations of the closed-form solution to the proposed linear feature-based registration method are given step by step. Finally, experimental tests are conducted on a real dataset. The derived experimental result demonstrates the feasibility of the proposed solution: By using eigenvalue decomposition to replace the linearization of the objective function, the proposed solution does not require any initial estimates of the unknown transformation parameters, which assures the stability of the registration method.
Highlights
Accurate reconstruction of geographical entities and their related environments is an important focus of three-dimensional geographic information systems, and is a key issue for digital cities
This study focuses on the implementation of a closed-form solution to the linear feature-based registration of LiDAR point clouds, which includes the unique representation of linear features in 3D space, as well as the dual quaternion-based representation of spatial transformation
Spatial transformation is widely used in point cloud registration, absolute orientation and navigation
Summary
Accurate reconstruction of geographical entities and their related environments is an important focus of three-dimensional geographic information systems, and is a key issue for digital cities. Among all available instruments and techniques for acquiring location-based data, LiDAR has been given more attention because of its ability to directly provide reliable point clouds for the scanned objects. Considering the diversity of the available spatial entities, the acquisition of point clouds, which fully cover the entity in question, might require several observation stations. Since these acquired point clouds are defined in their own local reference frames, it is necessary to develop methods to transform them into a common reference coordinate system, which is usually known as point cloud registration. The essence of point cloud registration is to find the most suitable similarity transformation model between the two neighbouring LiDAR stations. The point cloud registration usually starts with the identification of conjugate
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