1 Definition of Surface of Multivariate B-form and Method for Construction In this section we present a definition of surface of multivariate B-form and themethod for constructing the surface. Usually R^m denotes m-di...1 Definition of Surface of Multivariate B-form and Method for Construction In this section we present a definition of surface of multivariate B-form and themethod for constructing the surface. Usually R^m denotes m-dimensional real number space, and Z_+~m denotes the set of allm-multiple nonnegative integer.展开更多
This paper introduces the algebraic property of bivariate orthonormal Jacobi polynomials into geometric approximation. Based on the latest results on the transformation formulae between bivariate Bernstein polynomials...This paper introduces the algebraic property of bivariate orthonormal Jacobi polynomials into geometric approximation. Based on the latest results on the transformation formulae between bivariate Bernstein polynomials and Jacobi polynomials, we naturally deduce a novel algorithm for multi-degree reduction of triangular B^zier surfaces. This algorithm possesses four characteristics: ability of error forecast, explicit expression, less time consumption, and best precision. That is, firstly, whether there exists a multi-degree reduced surface within a prescribed tolerance is judged beforehand; secondly, all the operations of multi-degree reduction are just to multiply the column vector generated by sorting the series of the control points of the original surface in lexicographic order by a matrix; thirdly, this matrix can be computed at one time and stored in an array before processing degree reduction; fourthly, the multi-degree reduced surface achieves an optimal approximation in the norm L2. Some numerical experiments are presented to validate the effectiveness of this algorithm, and to show that the algorithm is applicable to information processing of products in CAD system.展开更多
文摘1 Definition of Surface of Multivariate B-form and Method for Construction In this section we present a definition of surface of multivariate B-form and themethod for constructing the surface. Usually R^m denotes m-dimensional real number space, and Z_+~m denotes the set of allm-multiple nonnegative integer.
基金Supported by the National Grand Fundamental Research 973 Program of China (Grant No. 2004CB719400)the National Natural Science Foun-dation of China (Grant Nos. 60673031 and 60333010)the National Natural Science Foundation for Innovative Research Groups (Grant No. 60021201)
文摘This paper introduces the algebraic property of bivariate orthonormal Jacobi polynomials into geometric approximation. Based on the latest results on the transformation formulae between bivariate Bernstein polynomials and Jacobi polynomials, we naturally deduce a novel algorithm for multi-degree reduction of triangular B^zier surfaces. This algorithm possesses four characteristics: ability of error forecast, explicit expression, less time consumption, and best precision. That is, firstly, whether there exists a multi-degree reduced surface within a prescribed tolerance is judged beforehand; secondly, all the operations of multi-degree reduction are just to multiply the column vector generated by sorting the series of the control points of the original surface in lexicographic order by a matrix; thirdly, this matrix can be computed at one time and stored in an array before processing degree reduction; fourthly, the multi-degree reduced surface achieves an optimal approximation in the norm L2. Some numerical experiments are presented to validate the effectiveness of this algorithm, and to show that the algorithm is applicable to information processing of products in CAD system.
