Aiming at these problems, this paper presents a binary search algorithm based on solving the maximum module of roots of polynomial.
针对该问题,提出一种基于多项式根的最大模求解的二分搜索算法。
The paper introduces the property theorem about roots of polynomial and the derivate limit theorem, by which we can study the derived number of a break point of piecewise function.
介绍了用多项式根的性质与导数极限定理求分段函数在分界点的导数的简单方法。
The formulas that used in the iterative procedure are build by means of the distribution of the roots of polynomial equation on the plane, and therefore the generating images are designed in advance.
可以利用多项式的根在复平面上的分布构造用于迭代的计算式,使能够对生成图形进行预先设计。
In this paper, we present an iterative method for determining whether all roots of characteristic polynomial are on the left half-plane.
本文提出一种确定特征多项式的全部根是否位于左半平面的迭代法。
Methods of exploring the real number roots of a real coefficient polynomial function are procedurally given.
较程序化地给出了实系数多项式函数实数根的求法。
An algorithm for cyclotomic polynomial test is presented based on that all the roots of a cyclotomic polynomial are unity. The algorithm is directed. simple and realized easily.
本文利用分圆多项式的所有根是单位根的性质,直接从给定的多项式入手,提出了判定一个多项式是否为分圆多项式的算法.算法简单明了,易于实现.。
It is pointed out that the eigenvalues of these structures are the roots of a series of rational fraction polynomial equations. A theorem about the roots of these equations is proved in the paper.
本文指出了弱粘弹性材料结构的特征值是一组有理分式多项式方程的根,并给出了关于这些有理分式多项式方程根的一个定理。
The method presented in this paper is not to approximate directly with Newton iterate the roots of a polynomial but to approximate its second order factors.
本文提出的这种方法,它的特点在于:我们不是用牛顿迭代法去直接逼近方程的根,而是用牛顿迭代法去逼近方程的二次因子。
The method presented in this paper is not to approximate directly with Newton iterate the roots of a polynomial but to approximate its second order factors.
本文提出的这种方法,它的特点在于:我们不是用牛顿迭代法去直接逼近方程的根,而是用牛顿迭代法去逼近方程的二次因子。
应用推荐