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引用次数: 0
摘要
本文是基于吴氏方法研究常微分方程对称分类的第一篇论文。我们对两个ode进行了对称分类,命名为涉及任意函数的Kummer-Schwarz方程的推广。首先,利用李算法对给定的涉及任意函数的方程给出对称的确定方程。其次,采用微分形式Wu的方法将确定方程分解为一系列零组微分特征集的并,相对容易求解。分解的每个分支产生一类对称性和相关参数。该算法使分类变得直接和系统。Yuri Dimitrov Bozhkov和Pammela Ramos da conce o在2020年使用Lie算法给出了本文所讨论的方程的对称分类。从本文中我们可以发现微分形式Wu的方法对于任意函数(参数)的ode对称分类是有效的,是一种替代方法。
An Alternative Algorithm for the Symmetry Classification of Ordinary Differential Equations
This is the first paper on symmetry classification for ordinary differential equations (ODEs) based on Wu’s method. We carry out symmetry classification of two ODEs, named the generalizations of the Kummer-Schwarz equations which involving arbitrary function. First, Lie algorithm is used to give the determining equations of symmetry for the given equations, which involving arbitrary functions. Next, differential form Wu’s method is used to decompose determining equations into a union of a series of zero sets of differential characteristic sets, which are easy to be solved relatively. Each branch of the decomposition yields a class of symmetries and associated parameters. The algorithm makes the classification become direct and systematic. Yuri Dimitrov Bozhkov, and Pammela Ramos da Conceição have used the Lie algorithm to give the symmetry classifications of the equations talked in this paper in 2020. From this paper, we can find that the differential form Wu’s method for symmetry classification of ODEs with arbitrary function (parameter) is effective, and is an alternative method.
期刊介绍:
Sound & Vibration is a journal intended for individuals with broad-based interests in noise and vibration, dynamic measurements, structural analysis, computer-aided engineering, machinery reliability, and dynamic testing. The journal strives to publish referred papers reflecting the interests of research and practical engineering on any aspects of sound and vibration. Of particular interest are papers that report analytical, numerical and experimental methods of more relevance to practical applications.
Papers are sought that contribute to the following general topics:
-broad-based interests in noise and vibration-
dynamic measurements-
structural analysis-
computer-aided engineering-
machinery reliability-
dynamic testing
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