| 1. | Notes on the solution of nonlinear equations in one variable
关于非线性方程求根的几点注记 |
| 2. | Ordinary differential equations and the roots of the algebraic equations
常微分方程与代数方程求根 |
| 3. | New algorithm on finding roots of systems of nonlinear algebraic equations
非线性代数方程组求根新算法 |
| 4. | Tracking differentiator approaches for solving optimization problems and finding roots of algebraic equations
利用跟踪微分器构造未知函数的寻优器及求根器 |
| 5. | Particle swarm optimization algorithm and its application in extracting roots of complicated chemical equations
微粒群优化算法及其在复杂化学方程求根中的应用 |
| 6. | In this paper , some especial higher power equation be enumerated , just like binomial equation or reciprocal equation , for people can ' t fine common extract roots formula about five and above power equation
摘要基于五次或五次以上方程没有一般通用的求根公式,本文列举了一些特殊的高次方程的解法。 |
| 7. | In the second chapter , we used the two deformed newton which was discussed in the chapter 1 to solve the problem of finding the roots of nondifferentiable equations and established convergence theorems using majorant method
在第二章中,用第一章讨论过的两种牛顿迭代来解决不可导方程的求根问题。并且用优序列方法给出了收敛性定理。 |
| 8. | After deriving swt from the model , we find out that the water saturation equation is a quadratic equation about swt , so its solution is very simple and obtained by using the standard quadratic - root formula
通过研究混合泥质砂岩有效介质通用hb电阻率模型的求解方法,表明模型导出的关于s _ ( wt )的方程是一个一元二次方程,可用求根公式求解,解法非常简单。 |
| 9. | First , we study the algorithms of the classical music and root - music . compared with the classical music , root - music had less calculation consumption . and when the signals are coherent or correlated we have presented a modified music algorithm
在music类算法中,比较了求根music和经典music算法,其中求根music算法相对于经典music算法大大减少了计算量并提高了估计精度。 |
| 10. | The direct root - finding method , as a conventional method for analyzing transient heat conduction of wall , will produce much inevitable problem such as root - missing and low efficiency . at all times , people quested for more efficient and simple method to analyze its dynamic heat conduction
传统的分析墙体不稳定传热的方法?直接求根法存在失根、效率低下等诸多问题,一直以来,人们不断寻求更加简单、更高效率的方法来分析其动态传热过程。 |
