A finite point method for solving compressible flow problems involving moving boundaries and adaptivity is presented. The numerical methodology is based on an upwind-biased discretization of the Euler equations, written in arbitrary Lagrangian–Eulerian form and integrated in time by means of a dual-time steeping technique. In order to exploit the meshless potential of the method, a domain deformation approach based on the spring network analogy is implemented, and h-adaptivity is also employed in the computations. Typical movable boundary problems in transonic flow regime are solved to assess the performance of the proposed technique. In addition, an application to a fluid–structure interaction problem involving static aeroelasticity illust...
A comparative assessment of the Finite Point Method (FPM) is presented. Using a wing-fuselage config...
A finite volume adaptive mesh redistribution method for efficient and accurate simulation of one and...
A novel Finite Volume (FV) technique for solving the compressible unsteady Euler equations is presen...
A finite point method for solving compressible flow problems involving moving boundaries and adaptiv...
This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions f...
An adaptive Finite Point Method (FPM) for solving aeroelastic compressible flow problems is presente...
The Finite Point Method (FPM) is a meshless technique which is based on both, a Weighted Least-Squar...
Electronic version of an article published as "International journal for numerical methods in fluids...
The finite point method (FPM) is a meshless technique, which is based on both, a weighted least‐squa...
In this work, the finite point method is applied to the solution of high‐Reynolds compressible visco...
In this work, the finite point method is applied to the solution of high-Reynolds compressible visco...
This work deals with the development and application of the Finite Point Method (FPM) to compressibl...
The monograph presents recent developments on the solution of high speed compressible flow problems ...
The thesis deals with the construction of an adaptive 1D and 2D mesh in the framework of the cell- c...
. In this paper we shall present a numerical algorithm to solve the compressible Euler equations in ...
A comparative assessment of the Finite Point Method (FPM) is presented. Using a wing-fuselage config...
A finite volume adaptive mesh redistribution method for efficient and accurate simulation of one and...
A novel Finite Volume (FV) technique for solving the compressible unsteady Euler equations is presen...
A finite point method for solving compressible flow problems involving moving boundaries and adaptiv...
This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions f...
An adaptive Finite Point Method (FPM) for solving aeroelastic compressible flow problems is presente...
The Finite Point Method (FPM) is a meshless technique which is based on both, a Weighted Least-Squar...
Electronic version of an article published as "International journal for numerical methods in fluids...
The finite point method (FPM) is a meshless technique, which is based on both, a weighted least‐squa...
In this work, the finite point method is applied to the solution of high‐Reynolds compressible visco...
In this work, the finite point method is applied to the solution of high-Reynolds compressible visco...
This work deals with the development and application of the Finite Point Method (FPM) to compressibl...
The monograph presents recent developments on the solution of high speed compressible flow problems ...
The thesis deals with the construction of an adaptive 1D and 2D mesh in the framework of the cell- c...
. In this paper we shall present a numerical algorithm to solve the compressible Euler equations in ...
A comparative assessment of the Finite Point Method (FPM) is presented. Using a wing-fuselage config...
A finite volume adaptive mesh redistribution method for efficient and accurate simulation of one and...
A novel Finite Volume (FV) technique for solving the compressible unsteady Euler equations is presen...