A subcritical panel method applied to flow analysis and aerodynamic design of complex aircraft configurations is presented. The analysis method is based on linearized, compressible, subsonic flow equations and indirect Dirichlet boundary conditions. Quadratic dipol and linear source distribution on flat panels are applied. In the case of aerodynamic design, the geometry which minimizes differences between design and actual pressure distribution is found iteratively, using numerical optimization technique. Geometry modifications are modeled by surface transpiration concept. Constraints in respect to resulting geometry can be specified. A number of complex 3-dimensional design examples are presented. The software is adopted to personal comput...
A methodology for performing optimization on 3D unstructured grids based on the Euler equations is p...
The present work takes origin from studies carried out at the Department of Aerospace Engineering of...
A new parametrization method for aircraft shapes is presented to enhance shape optimization for airc...
An iterative method has been developed for designing wing section contours corresponding to a prescr...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...
Two computer programs, developed for subsonic inviscid analysis and design are described. The first ...
Numerical results illustrating the capabilities of an advanced aerodynamic surface paneling method a...
The objective of this paper is to describe theoretical procedures which can be utilized by the gener...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
A procedure was developed for the design of transonic wings by the iterative use of three dimensiona...
Design optimization methods using high-fidelity computational fluid dynamics simulations are becomin...
A recently developed three-dimensional aerodynamic shape optimization procedure AeSOP(sub 3D) is des...
This paper presents the computer implementation process of the Panel Method for aerodynamic analysis...
An accurate and efficient method was developed for the aerodynamic analysis of a series of arbitrary...
A reliable and efficient iterative method has been developed for designing wing section contours cor...
A methodology for performing optimization on 3D unstructured grids based on the Euler equations is p...
The present work takes origin from studies carried out at the Department of Aerospace Engineering of...
A new parametrization method for aircraft shapes is presented to enhance shape optimization for airc...
An iterative method has been developed for designing wing section contours corresponding to a prescr...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...
Two computer programs, developed for subsonic inviscid analysis and design are described. The first ...
Numerical results illustrating the capabilities of an advanced aerodynamic surface paneling method a...
The objective of this paper is to describe theoretical procedures which can be utilized by the gener...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
A procedure was developed for the design of transonic wings by the iterative use of three dimensiona...
Design optimization methods using high-fidelity computational fluid dynamics simulations are becomin...
A recently developed three-dimensional aerodynamic shape optimization procedure AeSOP(sub 3D) is des...
This paper presents the computer implementation process of the Panel Method for aerodynamic analysis...
An accurate and efficient method was developed for the aerodynamic analysis of a series of arbitrary...
A reliable and efficient iterative method has been developed for designing wing section contours cor...
A methodology for performing optimization on 3D unstructured grids based on the Euler equations is p...
The present work takes origin from studies carried out at the Department of Aerospace Engineering of...
A new parametrization method for aircraft shapes is presented to enhance shape optimization for airc...