TY - GEN A1 - Sakurai, Daisuke A1 - Ono, Kenji A1 - Carr, Hamish A1 - Nonaka, Jorji A1 - Kawanabe, Tomohiro ED - Carr, Hamish ED - Fujishiro, Issei ED - Sadlo, Filip ED - Takahashi, Shigeo T1 - Flexible Fiber Surfaces: A Reeb-Free Approach T2 - Topological Methods in Data Analysis and Visualization V N2 - The fiber surface generalizes the popular isosurface to multi-fields, so that pre-images can be visualized as surfaces. As with the isosurface, however, the fiber surface suffers from visual occlusion. We propose to avoid such occlusion by restricting the components to only the relevant ones with a new component-wise flexing algorithm. The approach, flexible fiber surface, generalizes the manipulation idea found in the flexible isosurface for the fiber surface. The flexible isosurface in the original form, however, relies on the contour tree. For the fiber surface, this corresponds to the Reeb space, which is challenging for both the computation and user interaction. We thus take a Reeb-free approach, in which one does not compute the Reeb space. Under this constraint, we generalize a few selected interactions in the flexible isosurface and discuss the implication of the restriction. Y1 - 2019 PB - Springer ER - TY - GEN A1 - Sakurai, Daisuke A1 - Ono, Kenji A1 - Carr, Hamish A1 - Nonaka, Jorji A1 - Kawanabe, Tomohiro T1 - Flexible Fiber Surfaces: A Reeb-Free Approach N2 - The fiber surface generalizes the popular isosurface to multi-fields, so that pre-images can be visualized as surfaces. As with the isosurface, however, the fiber surface suffers from visual occlusion. We propose to avoid such occlusion by restricting the components to only the relevant ones with a new component-wise flexing algorithm. The approach, flexible fiber surface, generalizes the manipulation idea found in the flexible isosurface for the fiber surface. The flexible isosurface in the original form, however, relies on the contour tree. For the fiber surface, this corresponds to the Reeb space, which is challenging for both the computation and user interaction. We thus take a Reeb-free approach, in which one does not compute the Reeb space. Under this constraint, we generalize a few selected interactions in the flexible isosurface and discuss the implication of the restriction. T3 - ZIB-Report - 19-09 Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-72599 SN - 1438-0064 ER -