Operator of invariant differentiation and its application for integrating systems of ordinary differential equations

IF 0.5 Q3 MATHEMATICS Ufa Mathematical Journal Pub Date : 2017-01-01 DOI:10.13108/2017-9-4-12
R. Gazizov, A. Gainetdinova
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引用次数: 4

Abstract

We propose an algorithm for integrating n-th order ordinary differential equations (ODE) admitting n-dimensional Lie algebras of operators. The algorithm is based on invariant representation of the equations by the invariants of the admitted Lie algebra and application of an operator of invariant differentiation of special type. We show that in the case of scalar equations this method is equivalent to the known order reduction methods. We study an applicability of the suggested algorithm to the systems of m kth order ODEs admitting km-dimensional Lie algebras of operators. For the admitted Lie algebra we obtain a condition ensuring the possibility to construct the operator of invariant differentiation of a special type and to reduce the order of the considered system of ODEs. This condition is the implication of the existence of nontrivial solutions to the systems of linear algebraic equations, where the coefficients are the structural constants of the Lie algebra. We present an algorithm for constructing the (km − 1)-dimensional Lie algebra for the reduced system. The suggested approach is applied for integrating the systems of two second order equations.
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不变微分算子及其在常微分方程组积分中的应用
提出了一种包含n维李代数算子的n阶常微分方程的积分算法。该算法是基于允许李代数的不变量对方程的不变量表示和特殊类型的不变微分算子的应用。我们证明在标量方程的情况下,该方法等价于已知的阶约法。我们研究了该算法在包含km维李代数算子的m个k阶ode系统中的适用性。对于允许的李代数,我们得到了构造一类特殊类型不变微分算子的可能性和所考虑的ODEs系统降阶的可能性的一个条件。这个条件是线性代数方程组非平凡解存在性的暗示,其中系数是李代数的结构常数。给出了一种构造约简系统(km−1)维李代数的算法。将该方法应用于两个二阶方程组的积分。
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