Tensor Calculus with Object-Oriented Matrices for Numerical Methods in Mechanics and Engineering: Fundamentals and Functions for Tensor/Matrix Algorithms of the Finite Element Method - Hardcover

Meissner, Udo F.

 
9783031593017: Tensor Calculus with Object-Oriented Matrices for Numerical Methods in Mechanics and Engineering: Fundamentals and Functions for Tensor/Matrix Algorithms of the Finite Element Method
Hardcover
ISBN 10: 3031593014 ISBN 13: 9783031593017
Publisher: Springer, 2024

Synopsis

The intension of the book is to synthesize classical matrix and tensor methods with object-oriented software techniques and efficient matrix methods for numerical algorithms. The aim is to establish a coherent methodological framework through which the tensor-based modeling of physical phenomena can be seamlessly applied in numerical algorithms without encountering methodological inconsistencies across different sub-areas, like indexed notation of tensors and two- dimensional matrix algebra in symbolic notation.

The key to an effective solution lies in object-oriented numerical structures and software design. The author presents a coherent integration of tensor-based theory through multi-dimensional matrix calculus to object-oriented numeric classes and methods for adequate simulations.

The index-based tensor and matrix notation and the object-oriented overloading of standard operators in C++ offers an innovative means to define comparable matrix operations for processing matrix objects of higher order. Typical applications demonstrate the advantages of this unique integration.

"synopsis" may belong to another edition of this title.

About the Author

Prof. Dr.-Ing. Dr.-Ing. E.h. Udo F. Meissner (em. TU Darmstadt)

From the Back Cover

The intension of the book is to synthesize classical matrix and tensor methods with object-oriented software techniques and efficient matrix methods for numerical algorithms. The aim is to establish a coherent methodological framework through which the tensor-based modeling of physical phenomena can be seamlessly applied in numerical algorithms without encountering methodological inconsistencies across different sub-areas, like indexed notation of tensors and two- dimensional matrix algebra in symbolic notation.

The key to an effective solution lies in object-oriented numerical structures and software design. The author presents a coherent integration of tensor-based theory through multi-dimensional matrix calculus to object-oriented numeric classes and methods for adequate simulations.

The index-based tensor and matrix notation and the object-oriented overloading of standard operators in C++ offers an innovative means to define comparable matrix operations for processing matrix objects of higher order. Typical applications demonstrate the advantages of this unique integration.

Content

Fundamentals of tensor and matrix calculus – Object-oriented matrix methods – Tensor basis and metrics – Three-dimensional visualization – Tensor analysis for Finite Elements – Object-oriented numeric

About the author

Prof. Dr.-Ing. Dr.-Ing. E. h. Udo F. Meissner read for his Dipl.-Ing., Dr.-Ing. and Habilitation at the University of Hannover, where he was a Professor of Mechanics. In 1990 he was appointed as a Professor of Numerical Methods and Informatics in Civil and Structural Engineering by the Technical University of Darmstadt. During 1974/75 and 1985/86 he gained visiting professorships at the UC Berkeley and at the Chuo University in Tokyo. The award as Dr.-Ing. E. h., he received from the Bauhaus-University of Weimar in 2004.

"About this title" may belong to another edition of this title.

Publisher
Springer
Publication date
2024
Language
English
ISBN 10 
3031593014
ISBN 13 
9783031593017
Binding
Hardcover
Number of pages
244