PVI-DSO: Leveraging Planar Regularities for Direct Sparse Visual-Inertial Odometry
The monocular Visual-Inertial Odometry (VIO) based on the direct method can leverage all the available pixels in the image to estimate the camera motion and reconstruct the environment. The denser map reconstruction provides more information about the environment, making it easier to extract structure and planar regularities. In this paper, we propose a monocular direct sparse visual-inertial odometry, which exploits the plane regularities (PVI-DSO). Our system detects coplanar information from 3D meshes generated from 3D point clouds and uses coplanar parameters to introduce coplanar constraints. In order to reduce computation and improve compactness, the plane-distance cost is directly used as the prior information of plane parameters. We conduct ablation experiments on public datasets and compare our system with other state-of-the-art algorithms. The experimental results verified leveraging the plane information can improve the accuracy of the VIO system based on the direct method.
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