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中村 啓太; 羽成 敏秀; 松本 拓; 川端 邦明; 八代 大*
Journal of Robotics and Mechatronics, 36(1), p.115 - 124, 2024/02
During the decommissioning activities, a movie was shot inside the reactor building during the investigation of the primary containment vessel by applying photogrammetry, which is one of the methods for three-dimensional (3D) reconstruction from images, to the images from this movie, it is feasible to perform 3D reconstruction of the environment around the primary containment vessel. However, the images from this movie may not be suitable for 3D reconstruction because they were shot remotely by robots owing to limited illumination, high-dose environments, etc. Moreover, photogrammetry has the disadvantage of easily changing 3D reconstruction results by simply changing the shooting conditions. Therefore, this study investigated the accuracy of the 3D reconstruction results obtained by photogrammetry with changes in the camera angle of view under shooting conditions. In particular, we adopted 3D computer graphics software to simulate shooting target objects for 3D reconstruction in a dark environment while illuminating them with light for application in decommissioning activities. The experimental results obtained by applying artificial images generated by simulation to the photogrammetry method showed that more accurate 3D reconstruction results can be obtained when the camera angle of view is neither too wide nor too narrow when the target objects are shot and surrounded. However, the results showed that the accuracy of the obtained results is low during linear trajectory shooting when the camera angle of view is wide.
馬場 啓多*; 渡部 有隆*; 中村 啓太*; 松本 拓; 羽成 敏秀; 川端 邦明
Proceedings of 29th International Symposium on Artificial Life and Robotics (AROB 2024) (Internet), p.751 - 756, 2024/01
This study proposes a partial-to-partial point cloud registration method based on estimated parameters in photogrammetry and QR code. Some research and development on Generating a 3D map of the workspace by photogrammetric methods have been proposed for the decommissioning work at the Fukushima Daiichi Nuclear Power Plant. Photogrammetry is a method for 3D reconstruction of the location and shape of target objects from many images, and the processing time depends on the number of images. Considering the reconstruction of a large area, the number of images increases, and processing time also increases significantly. To reduce such computational time, this study considers applying SfM-MVS (Structure from Motion and Multi-View Stereo), which is one of the photogrammetry methods, to each segmented image group, aligning each obtained result, integrating them, and creating a model of the entire space. This alignment is called partial-to-partial registration and it is difficult to find the correspondence points for registration. Therefore, we place markers such as QR codes in the target reconstruction space to make it easy to find the correspondence points. We adopt the QR code as a 2D code because it is easy to reconstruct by photogrammetry. In this paper, we discuss the validity of this approach by comparing it with the integrated model using all images applying SfM-MVS. We verify the validation of the proposed method by simulation due to the large number of images and the ease of modifying the environment. The experiment about varying the number of image divisions shows that the reconstruction result from all images is more accurate than the integrated result. However, all of these models have high reconstruction accuracy. Moreover, the accuracy of the integrated model does not depend on the number of divisions.
松本 拓; 羽成 敏秀; 川端 邦明; 八代 大*; 中村 啓太*
Proceedings of 2023 IEEE International Conference on Robotics and Biomimetics (IEEE ROBIO 2023) (Internet), 7 Pages, 2023/12
This paper describes an automatic system that performs three-dimensional (3D) modeling from image sequences acquired from a camera during a survey to understand the state of the environment sequentially. The developed system sequentially generates local 3D models from image sequences acquired from a camera by the Structure from Motion and Multi-View Stereo (SfM-MVS) and integrates the models. This system, consisting of a camera, a computer, and storage, handles streaming, image acquisition, 3D modeling, and integration processes. The system is designed to perform each process in parallel while performing image acquisition. Local 3D models are integrated based on the similarity of camera trajectories, which correspond to overlapped images in each sequence, estimated from SfM. Our experiments verified the operation of the developed system from the image acquisition to the integration of local 3D models in two cases. Consequently, we confirmed that an integrated model could be generated by automatically executing each process in the system through experiments.
中村 啓太*; 馬場 啓多*; 渡部 有隆*; 松本 拓; 羽成 敏秀; 川端 邦明
no journal, ,
本研究では、QRコードを用いた写真測量による立体復元結果の部分間レジストレーションによる統合手法を提案する。写真測量で獲得した復元結果は、復元ごとにスケーリングが異なるため統合が困難である。この問題を解決するために、大きさが既知のQRコードを復元対象環境に配置し、QRコードの大きさに基づいて復元結果をスケーリングし、スケーリングした復元結果をQRコードのマーカに基づいて統合する。本提案手法を検証するため、全画像から復元した結果と複数の復元結果を統合した結果の精度を比較した。検証結果から、精度を維持しつつ写真測量による3Dマッピングに要する時間の短縮に有効であることが示された。
