Multi-degree reduction of tensor product Bézier surfaces with general boundary constraints

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摘要

We propose an efficient approach to the problem of multi-degree reduction of rectangular Bézier patches, with prescribed boundary control points. We observe that the solution can be given in terms of constrained bivariate dual Bernstein polynomials. The complexity of the method is O(mn1n2) with m ≔ min(m1, m2), where (n1, n2) and (m1, m2) is the degree of the input and output Bézier surface, respectively. If the approximation—with appropriate boundary constraints—is performed for each patch of several smoothly joined rectangular Bézier surfaces, the result is a composite surface of global Cr continuity with a prescribed r ⩾ 0. In the detailed discussion, we restrict ourselves to r ∈ {0, 1}, which is the most important case in practical application. Some illustrative examples are given.

论文关键词:Rectangular Bézier surface,Multi-degree reduction,Constrained dual Bernstein basis,Jacobi polynomials,Hahn polynomials

论文评审过程:Available online 9 November 2010.

论文官网地址:https://doi.org/10.1016/j.amc.2010.11.011