The appriximation properties of generalized conic curves are studied in this paper. A generalized conic curve is defined as one of the following curves or their affine and translation e-quivalent curves:(i) conic curv...The appriximation properties of generalized conic curves are studied in this paper. A generalized conic curve is defined as one of the following curves or their affine and translation e-quivalent curves:(i) conic curves i including parabolas, hyperbolas and ellipses;(ii) generalized monomial curves, including curves of the form x=yr,.r R.r=0,1, in the x-y Cartesian coordinate system;(iii) exponential spiral curves of the form p=Apolar coordinate system.This type of curves has many important properties such as convexity , approximation property, effective numerical computation property and the subdivision property etc. Applications of these curves in both interpolation and approximations using piecewise generalized conic segment are also developed. It is shown that these generalized conic splines are very similar to the cubic polynomial splines and the best error of approximation is or at least in general provided appropriate procedures are used. Finally some numerical examples of interpolation and approximations with generalized conic splines are given.展开更多
In this paper,based on the mean value theorem of differential,a new method of generating conics such as circles and parabolas is given,and the related algorithm for generating conics is designed.
The classical RSA is vulnerable to low private exponent attacks (LPEA) and has homomorphism. KMOV based on elliptic curve En(a,b) over Zn can resist LPEA but still has homomorphism. QV over En(a,b) not only can ...The classical RSA is vulnerable to low private exponent attacks (LPEA) and has homomorphism. KMOV based on elliptic curve En(a,b) over Zn can resist LPEA but still has homomorphism. QV over En(a,b) not only can resist LPEA but also has no homomorphism. However, QV over En(a,b) requires the existence of points whose order is Mn= 1cm{#Ep(a,b), #Eq(a,b)}. This requirement is impractical for all general elliptic curves. Besides, the computation over En(a,b) is quite complicated. In this paper, we further study conic curve Cn(a,b) over Zn and its corresponding properties, and advance several key theorems and corollaries for designing digital signature schemes, and point out that Cn(a,b) always has some points whose order is Mn: 1cm{#Ep(a,b),#Eq(a,b)). Thereby we present an improved QV signature over Cn(a,b), which inherits the property of non-homomorphism and can resist the Wiener attack. Furthermore, under the same security requirements, the improved QV scheme is easier than that over En(a,b), with respect plaintext embedding, inverse elements computation, points computation and points' order calculation. Especially, it is applicable to general conic curves, which is of great significance to the application of QV schemes.展开更多
Mathematicians are constantly constructing and exploring the properties of abstract objects only because they find them beautiful and interesting. Later, sometimes centuries later, the objects may turn out to be e-nor...Mathematicians are constantly constructing and exploring the properties of abstract objects only because they find them beautiful and interesting. Later, sometimes centuries later, the objects may turn out to be e-normously useful when they are applied to the physical world. There are no more elegant examples of this than the work done in ancient Greece on the four conic-section curve. If a right circular cone is sliced by a plane parallel to its base, the cross section is a circle. Tip the展开更多
文摘The appriximation properties of generalized conic curves are studied in this paper. A generalized conic curve is defined as one of the following curves or their affine and translation e-quivalent curves:(i) conic curves i including parabolas, hyperbolas and ellipses;(ii) generalized monomial curves, including curves of the form x=yr,.r R.r=0,1, in the x-y Cartesian coordinate system;(iii) exponential spiral curves of the form p=Apolar coordinate system.This type of curves has many important properties such as convexity , approximation property, effective numerical computation property and the subdivision property etc. Applications of these curves in both interpolation and approximations using piecewise generalized conic segment are also developed. It is shown that these generalized conic splines are very similar to the cubic polynomial splines and the best error of approximation is or at least in general provided appropriate procedures are used. Finally some numerical examples of interpolation and approximations with generalized conic splines are given.
文摘In this paper,based on the mean value theorem of differential,a new method of generating conics such as circles and parabolas is given,and the related algorithm for generating conics is designed.
基金Supported by the National Natural Science Foundation of China (Grant No. 10128103)
文摘The classical RSA is vulnerable to low private exponent attacks (LPEA) and has homomorphism. KMOV based on elliptic curve En(a,b) over Zn can resist LPEA but still has homomorphism. QV over En(a,b) not only can resist LPEA but also has no homomorphism. However, QV over En(a,b) requires the existence of points whose order is Mn= 1cm{#Ep(a,b), #Eq(a,b)}. This requirement is impractical for all general elliptic curves. Besides, the computation over En(a,b) is quite complicated. In this paper, we further study conic curve Cn(a,b) over Zn and its corresponding properties, and advance several key theorems and corollaries for designing digital signature schemes, and point out that Cn(a,b) always has some points whose order is Mn: 1cm{#Ep(a,b),#Eq(a,b)). Thereby we present an improved QV signature over Cn(a,b), which inherits the property of non-homomorphism and can resist the Wiener attack. Furthermore, under the same security requirements, the improved QV scheme is easier than that over En(a,b), with respect plaintext embedding, inverse elements computation, points computation and points' order calculation. Especially, it is applicable to general conic curves, which is of great significance to the application of QV schemes.
文摘Mathematicians are constantly constructing and exploring the properties of abstract objects only because they find them beautiful and interesting. Later, sometimes centuries later, the objects may turn out to be e-normously useful when they are applied to the physical world. There are no more elegant examples of this than the work done in ancient Greece on the four conic-section curve. If a right circular cone is sliced by a plane parallel to its base, the cross section is a circle. Tip the