![]() We performed a 3D scan of the stones to be placed on the site, and digitally studied the details of the layout using realistic mesh data including textures. Tablet view of the site with the AR application. By displaying layers for each process in a complex frame, we confirmed the next process on-site and shared the completed image. ![]() Using AR technology, we superimposed digital data onto the site. Superimposing on-site steel frame construction with the next operation in AR Confirmation of the subsequent process using Augmented Reality View of glass support hardware construction Superimposing the digital and real Additionally, we set the amount of vertical deformation and the minimization of the total steel weight as objective functions and used a genetic algorithm to search for a structural frame that satisfies these design objectives, from more than 5,000 cases. Karamba, a structural analysis plug-in, was linked to the parametric model to build a system that can instantly check structural performance in response to changes in the structural frame shape. © Shinkenchikusha Stress analysis, structural optimization verificationĪfter setting the positions of three columns as constraints (depending on the vehicle path), we created a parametric model in which the thickness / strength of the steel plate, the main axis direction of the columns, and the horizontal angle of the beams were set as design variables. The solar power cells are scattered like leaves and light descends like sunlight filtering through the trees. We imagined that buds would sprout from areas avoiding vehicular traffic, the trunk and branches would grow, and it would become a large tree that welcomes visitors. Optimization verification with Shimz Explorer, allowing for validation assessments of multiple proposals in a short time
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