Huasheng Ni scite author profile

Image registration is an important research content in image processing technology. Aiming at the problem that traditional registration methods are difficult to accurately register low-texture images, this paper proposes a high-precision image registration algorithm based on line segment features. For the case of wrong match, using the RANSAC random consistent sampling algorithm when searching for the transformation model, and then iterate the nearest points through ICP to transform the parameters further accurately. From the experimental results, the image registration method proposed in this paper is robust to scale, rotation, and illumination and the registration accuracy is improved.

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Dynamic Synthesis of Three−Point Circle Peripheral Docking Technology Pose

Lin

Wang

et al. 2023

Applied Sciences

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Research on space docking technology was first motivated by the application scenario of space station docking in the aviation field. Due to the maturity of this technology, its application field is expanding to other industries. To benefit the intelligent transportation field, this study uses space docking technology to realize combination and reconstruction between car bodies. Different spatial docking methods and structural characteristics are determined by different application scenarios. The docking of the space station is completed in the suspended state of the body in the outer space environment, which requires advanced technology, is high in hardware cost, and involves a small channel diameter. In this study, the docking of the reconstructed vehicle is completed on the ground; thus, it is low in hardware cost and involves a large channel diameter. Based on the above technical requirements, a three−point circular peripheral docking method is designed for the reconstructed vehicle. A visual positioning system is built, the mapping relationship between the camera coordinate system and the landmark coordinate system rotation matrix and translation vector is established, and the adaptive capture behavior is realized by path planning through the inverse pose solution model. Simulation experiments demonstrate that the active and passive vehicle bodies can achieve compliance capture with small collision force under the two conditions of forward collision and oblique collision, and the recovery coefficient after collision and docking is in the range of (0, 0.01). The acceleration decay process under two working conditions is measured in the crash test of a sample vehicle, which verifies the feasibility of the space reconstruction of the vehicle docking mechanism and the ability of this configuration to achieve tasks, providing a constructive idea for space docking technology with a large channel diameter.

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Huasheng Ni

Research on coal gangue separation method based on dual energy x-ray image technology

Research on high precision image registration method based on line segment feature and ICP algorithm

Dynamic Synthesis of Three−Point Circle Peripheral Docking Technology Pose

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