Add to ORKGA systematic approach has been developed to model the surfaces encountered in aerospace engineering for EM applications. The basis of this modeling is the quadric canonical shapes which are the coordinate surfaces of the Eisenhart Coordinate systems. The building blocks are visualized as sections of quadric cylinders and surfaces of revolution. These truncated quadrics can successfully model realistic aerospace structures which are termed a s hybrid quadrics, of which the satellite launch vehicles are illustrative examples
This thesis describes the design and development of software to parametrically build three-dimension...
A FORTRAN program has been developed to fit smooth surfaces13; to the component parts of an arbitrar...
AbstractThe paper proposes for the mathematical modelling surfaces of celestial bodies by the given ...
A systematic approach has been developed to model the surfaces encountered in aerospace engineering ...
This book describes the ray tracing effects inside different quadric surfaces. Analytical surface mo...
The quadric surfaces of revolution (QUASORs) consisting of right circular cone, sphere, ellipsoid of...
In this work, we discuss the surface patch modeling techniques to describe a complex geometry to the...
A generalized approach to analytical surface-ray tracing in three dimensions, and a review of its ap...
Quadric cylinders (QUACYLs) form a n important class of canonical shapes in aerospace engineering fr...
A new approach to the modelling of aircraft wings, based on the combination of hybrid quadric (parab...
An aircraft wing has been modeled as a hybrid of a right circular cylinder and a general parabolic ...
Solution techniques based on surface integral equations are widely used in computational electromagn...
Non-uniform rational b-splines (NURBS) are one of the most common and optimal geometric and mathemat...
AbstractThe geometric model of a surface is formed taking into consideration the set of functional, ...
What do we do when there is a need to model antennas and ground planes that have a geometry that is ...
This thesis describes the design and development of software to parametrically build three-dimension...
A FORTRAN program has been developed to fit smooth surfaces13; to the component parts of an arbitrar...
AbstractThe paper proposes for the mathematical modelling surfaces of celestial bodies by the given ...
A systematic approach has been developed to model the surfaces encountered in aerospace engineering ...
This book describes the ray tracing effects inside different quadric surfaces. Analytical surface mo...
The quadric surfaces of revolution (QUASORs) consisting of right circular cone, sphere, ellipsoid of...
In this work, we discuss the surface patch modeling techniques to describe a complex geometry to the...
A generalized approach to analytical surface-ray tracing in three dimensions, and a review of its ap...
Quadric cylinders (QUACYLs) form a n important class of canonical shapes in aerospace engineering fr...
A new approach to the modelling of aircraft wings, based on the combination of hybrid quadric (parab...
An aircraft wing has been modeled as a hybrid of a right circular cylinder and a general parabolic ...
Solution techniques based on surface integral equations are widely used in computational electromagn...
Non-uniform rational b-splines (NURBS) are one of the most common and optimal geometric and mathemat...
AbstractThe geometric model of a surface is formed taking into consideration the set of functional, ...
What do we do when there is a need to model antennas and ground planes that have a geometry that is ...
This thesis describes the design and development of software to parametrically build three-dimension...
A FORTRAN program has been developed to fit smooth surfaces13; to the component parts of an arbitrar...
AbstractThe paper proposes for the mathematical modelling surfaces of celestial bodies by the given ...