Keita Ichihashi scite author profile

Augmented Reality (AR) is a class of “mediated reality” that artificially modifies the human perception by superimposing virtual objects on the real world, which is expected to supplement reality. In visual-based augmentation, text and graphics, i.e., label, are often associated with a physical object or a place to describe it. View management in AR is to maintain the visibility of the associated information and plays an important role on communicating the information. Various view management techniques have been investigated so far; however, most of them have been designed for two dimensional see-through displays, and few have been investigated for projector-based AR called spatial AR. In this article, we propose a view management method for spatial AR, VisLP, that places labels and linkage lines based on the estimation of the visibility. Since the information is directly projected on objects, the nature of optics such as reflection and refraction constrains the visibility in addition to the spatial relationship between the information, the objects, and the user. VisLP employs machine-learning techniques to estimate the visibility that reflects human’s subjective mental workload in reading information and objective measures of reading correctness in various projection conditions. Four classes are defined for a label, while the visibility of a linkage line has three classes. After 88 and 28 classification features for label and linkage line visibility estimators are designed, respectively, subsets of features with 15 and 14 features are chosen to improve the processing speed of feature calculation up to 170%, with slight degradation of classification performance. An online experiment with new users and objects showed that 76.0% of the system’s judgments were matched with the users’ evaluations, while 73% of the linkage line visibility estimations were matched.

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Equivalent Static Seismic Load for Middle to Large Span Latticed Domes Considering Roof Antisymmetric Mode Amplified by Substructure Second Mode

Terazawa

Nair

Ichihashi

et al. 2022

Nihon Kenchiku Gakkai Kozokei Ronbunshu

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Effect of Design Specifications of Rc Gymnasiums With Metal Spatial Roofs on Response Control of Cantilevered Rc Walls and the Response Evaluation Method

Terazawa

Ichihashi

Takeuchi

2023

Nihon Kenchiku Gakkai Kozokei Ronbunshu

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This paper investigates the effect of the span of cantilevered RC wall, the in-plane stiffness of the roof, the layout of friction damper support on both the response control of cantilevered RC walls in RC gymnasiums with metal spatial roofs and the proposed response evaluation method. According to the response history analysis results, the proposed method was proved to be available on various RC gymnasiums and the evaluation formula of the column base moment of the cantilevered RC walls was modified following the appropriate moment diagram.

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Keita Ichihashi

Higher mode effects of multistorey substructures on the seismic response of double-layered steel gridshell domes

Estimating Visibility of Annotations for View Management in Spatial Augmented Reality Based on Machine-Learning Techniques

Equivalent Static Seismic Load for Middle to Large Span Latticed Domes Considering Roof Antisymmetric Mode Amplified by Substructure Second Mode

Effect of Design Specifications of Rc Gymnasiums With Metal Spatial Roofs on Response Control of Cantilevered Rc Walls and the Response Evaluation Method

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