Numerical methods for solving ODEs on the Infinity Computer

机译：求解无限电脑杂散的数值方法

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New algorithms for the numerical solution of Ordinary Differential Equations (ODEs) with initial conditions are proposed. They are designed for working on a new kind of a supercomputer - the Infinity Computer - that is able to deal numerically with finite, infinite and infinitesimal numbers. Due to this fact, the Infinity Computer allows one to calculate the exact derivatives of functions using infinitesimal values of the stepsize. As a consequence, the new methods are able to work with the exact values of the derivatives, instead of their approximations. Within this context, variants of one-step multi-point methods closely related to the classical Taylor formulae and to the Obrechkoff methods are considered. To get numerical evidence of the theoretical results, test problems are solved by means of the new methods and the results compared with the performance of classical methods.

机译：提出了具有初始条件的常微分方程（ODES）数值解的新算法。它们专为新种类的超级计算机而设计 - 无限计算机 - 能够以有限，无限和无限的数字数值处理。由于此事实，无限计算机允许人们使用步骤的无限值来计算函数的确切衍生物。因此，新方法能够使用衍生物的确切值而不是它们的近似。在这种情况下，考虑了与经典泰勒公式密切相关的一步多点方法的变体和对OBRechkoff方法。为了获得理论结果的数值证据，与古典方法的性能相比，通过新方法和结果解决了测试问题。

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来源
《International Conference "Numerical Computations: Theory and Algorithms"》|2016年|1 v. (various pagings) :|共4页
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作者
F. Mazzia; Ya.D. Sergeyev; F. Iavernaro; P. Amodio; M.S. Mukhametzhanov;
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中图分类 O241-532;
关键词
methods; solving; ODEs;

机译：方法;解决;杂散;

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专利

1. Numerical Methods for Solving Initial Value Problems on the Infinity Computer [J] . Sergeyev Ya. D., Mukhametzhanov M. S., Mazzia F., International journal of unconventional computing . 2016,第1期

机译：在无穷大计算机上求解初值问题的数值方法
2. Solving ordinary differential equations on the Infinity Computer by working with infinitesimals numerically [J] . Sergeyev Y.D. Applied mathematics and computation . 2013,第22期

机译：通过无穷小数值处理无穷大计算机上的常微分方程
3. In this paper, we implement the fractional complex transform method to convert the nonlinear fractional Klein-Gordon equation (FKGE) to an ordinary differential equation. We use the variational iteration method (VIM) to solve the resulting ODE. The fractional derivatives are presented in terms of the Caputo sense. Some numerical examples are presented to validate the proposed techniques. Finally, a comparison with the numerical solution using Runge-Kutta of order four is given. [J] . M. M. Khader, M. Adel Nonlinear engineering: Modeling and application . 2016,第3期

机译：在本文中，我们采用分数阶复杂变换方法将非线性分数阶Klein-Gordon方程（FKGE）转换为常微分方程。我们使用变分迭代方法（VIM）来解决所得的ODE。分数导数以Caputo形式表示。提出了一些数值例子来验证所提出的技术。最后，与使用四阶Runge-Kutta的数值解进行了比较。
4. Numerical methods for solving ODEs on the Infinity Computer [C] . F. Mazzia, Ya.D. Sergeyev, F. Iavernaro, International Conference "Numerical Computations: Theory and Algorithms" . 2016

机译：求解无限电脑杂散的数值方法
5. Active queue management methods in computer communication networks based on pole placement and H-infinity optimal control. [D] . Chen, Qiang. 2006

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7. Numerical methods for solving ODEs on the infinity computer [O] . Mazzia F., Sergeyev Ya. D., Iavernaro F., 2016

机译：在无穷大计算机上求解ODE的数值方法
8. Stability of Numerical Methods for Solving Systems of Second Order ODE's [R] . Thomas, R. M. , Gladwell, I. 1981

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Numerical methods for solving ODEs on the Infinity Computer

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