Jinggai Li scite author profile

Jinggai Li

4Publications

8Citation Statements Received

34Citation Statements Given

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Affiliations

Henan Normal University, Dalian University of Technology, Dalian Academy of Reconnaissance and Mapping (China)

Publications

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Curve and surface construction based on the generalized toric-Bernstein basis functions

Zhu

2020

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Abstract The construction of parametric curve and surface plays an important role in computer aided geometric design (CAGD), computer aided design (CAD), and geometric modeling. In this paper, we define a new kind of blending functions associated with a real points set, called generalized toric-Bernstein (GT-Bernstein) basis functions. Then, the generalized toric-Bézier (GT-Bézier) curves and surfaces are constructed based on the GT-Bernstein basis functions, which are the projections of the (irrational) toric varieties in fact and the generalizations of the classical rational Bézier curves/surfaces and toric surface patches. Furthermore, we also study the properties of the presented curves and surfaces, including the limiting properties of weights and knots. Some representative examples verify the properties and results.

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De Casteljau Algorithm and Degree Elevation of Toric Surface Patches

Zhu

2020

J Syst Sci Complex

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Conditions for injectivity of toric volumes with arbitrary positive weights

Zhu

2021

Computers & Graphics

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Geometric conditions for injectivity of 3D Bézier volumes

Zhao¹,

Li²,

He³

et al. 2021

MATH

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<abstract><p>The one-to-one property of injectivity is a crucial concept in computer-aided design, geometry, and graphics. The injectivity of curves (or surfaces or volumes) means that there is no self-intersection in the curves (or surfaces or volumes) and their images or deformation models. Bézier volumes are a special class of Bézier polytope in which the lattice polytope equals $ \Box_{m, n, l}, (m, n, l\in Z) $. Piecewise 3D Bézier volumes have a wide range of applications in deformation models, such as for face mesh deformation. The injectivity of 3D Bézier volumes means that there is no self-intersection. In this paper, we consider the injectivity conditions of 3D Bézier volumes from a geometric point of view. We prove that a 3D Bézier volume is injective for any positive weight if and only if its control points set is compatible. An algorithm for checking the injectivity of 3D Bézier volumes is proposed, and several explicit examples are presented.</p></abstract>

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Jinggai Li

Curve and surface construction based on the generalized toric-Bernstein basis functions

De Casteljau Algorithm and Degree Elevation of Toric Surface Patches

Conditions for injectivity of toric volumes with arbitrary positive weights

Geometric conditions for injectivity of 3D Bézier volumes

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