Two REDUCE programs are presented which should be of assistance in computing and studying so-called adjoint symmetries of second-order ordinary differential equations. The first program essentially serves to construct the determining equations for adjoint symmetries, whose leading coefficients are allowed to be polynomial functions of the velocities. The second program runs various tests concerning the possible construction of a first integral or a Lagrangian for the given system
An integration technique for difference schemes possessing Lie point symmetries is proposed. The met...
Infinitesimal symmetries of a partial differential equation (PDE) can be defined as the solutions of...
We obtain a type of first integrals for ODE in kinematical form by using a generalization of the met...
This project deals with solving differential equations. The aim is find the correct algorithm transf...
The aim of this Licentiate Thesis is to discuss special transformations and so-called adjoint symmet...
With each second-order differential equation 2 in the evolution space J1 (Mn+1) we associate, using ...
AbstractIntegrating factors and adjoint equations are determined for linear and non-linear different...
In order to apply Lie's symmetry theory for solving a differential equation it must be possible to i...
The formal model of physical systems is typically made in terms of differential equations. Conservat...
The reduction of nonlinear ordinary differential equations by a combination of first integrals and L...
In this Paper we study the adjoint symmetries for a class of third-order evolution equations in (1+1...
Abstract: A review of earlier publications referenced in an introduction of the paper is p...
The main aim of this thesis is to describe the program Deltasym. It is a Maple program that is desig...
This work introduces the so-called involutive reduction procedure to simplify and solve differential...
In this paper we present a theory for calculating new symmetries for ordinary differential equations...
An integration technique for difference schemes possessing Lie point symmetries is proposed. The met...
Infinitesimal symmetries of a partial differential equation (PDE) can be defined as the solutions of...
We obtain a type of first integrals for ODE in kinematical form by using a generalization of the met...
This project deals with solving differential equations. The aim is find the correct algorithm transf...
The aim of this Licentiate Thesis is to discuss special transformations and so-called adjoint symmet...
With each second-order differential equation 2 in the evolution space J1 (Mn+1) we associate, using ...
AbstractIntegrating factors and adjoint equations are determined for linear and non-linear different...
In order to apply Lie's symmetry theory for solving a differential equation it must be possible to i...
The formal model of physical systems is typically made in terms of differential equations. Conservat...
The reduction of nonlinear ordinary differential equations by a combination of first integrals and L...
In this Paper we study the adjoint symmetries for a class of third-order evolution equations in (1+1...
Abstract: A review of earlier publications referenced in an introduction of the paper is p...
The main aim of this thesis is to describe the program Deltasym. It is a Maple program that is desig...
This work introduces the so-called involutive reduction procedure to simplify and solve differential...
In this paper we present a theory for calculating new symmetries for ordinary differential equations...
An integration technique for difference schemes possessing Lie point symmetries is proposed. The met...
Infinitesimal symmetries of a partial differential equation (PDE) can be defined as the solutions of...
We obtain a type of first integrals for ODE in kinematical form by using a generalization of the met...