Abstract
Typically, relief generation from an input 3D scene is limited to either bas-relief or high-relief modeling. This paper presents a novel unified scheme for synthesizing reliefs guided by the geometric texture richness of 3D scenes; it can generate both basand high-reliefs. The type of relief and compression coefficient can be specified according to the user’s artistic needs. We use an energy minimization function to obtain the surface reliefs, which contains a geometry preservation term and an edge constraint term. An edge relief measure determined by geometric texture richness and edge z-depth is utilized to achieve a balance between these two terms. During relief generation, the geometry preservation term keeps local surface detail in the original scenes, while the edge constraint term maintains regions of the original models with rich geometric texture. Elsewhere, in highreliefs, the edge constraint term also preserves depth discontinuities in the higher parts of the original scenes. The energy function can be discretized to obtain a sparse linear system. The reliefs are obtained by solving it by an iterative process. Finally, we apply non-linear compression to the relief to meet the user’s artistic needs. Experimental results show the method’s effectiveness for generating both bas- and high-reliefs for complex 3D scenes in a unified manner.
Highlights
With the rapid development of 3D digital scanning and modeling techniques, triangular meshes are the dominant representation for 3D digital scenes
Bas-reliefs are generated with m = 0.8 and t = 0, while high-reliefs are generated with m = 0.8 and t = 1
We have presented a novel scheme for synthesizing controllable digital reliefs, guided by geometric texture richness
Summary
With the rapid development of 3D digital scanning and modeling techniques, triangular meshes are the dominant representation for 3D digital scenes. Computer graphics and digital geometry processing require various algorithms to effectively generate and edit 3D digital models [1,2,3,4,5,6,7]. As a traditional art form, reliefs bridge the gap between two-dimensional painting and three-dimensional sculpting. Various types of reliefs are widely used to adorn shapes in the design of jewelry, industrial packaging, modern pieces of art, etc. Advanced rapid prototyping technologies such as 3D printing [9, 10], which can be used to make a 3D object of almost any shape or geometry, can simplify the generation of reliefs
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