A Practical Approach to Advanced Mathematical Modelling in Civil Engineering
$135.57
- Paperback
384 pages
- Release Date
28 May 2025
Summary
Bridging Theory and Practice: Mathematical Modeling for Civil Engineers
A Practical Approach to Advanced Mathematical Modelling in Civil Engineering introduces advanced mathematical techniques and modelling concepts through real-world practical applications in key areas of Civil Engineering. It fills a crucial gap in the existing literature by using examples from structural analysis, coastal processes, and soil behaviour.
The authors’ approach to teaching has been developed …
Book Details
| ISBN-13: | 9780198854258 |
|---|---|
| ISBN-10: | 0198854250 |
| Author: | Mohammad Heidarzadeh, Theodosios K. Papathanasiou, Yurui Fan, Hamid Bahai |
| Publisher: | Oxford University Press |
| Imprint: | Oxford University Press |
| Format: | Paperback |
| Number of Pages: | 384 |
| Release Date: | 28 May 2025 |
| Weight: | 760g |
| Dimensions: | 246mm x 174mm x 20mm |
About The Author
Mohammad Heidarzadeh
Dr. Mohammad Heidarzadeh is an Associate Professor of Civil Engineering at University of Bath, specialising in Coastal and Hydraulic Engineering. His research activities are focused on enhancing coastal resilience against natural hazards such as storms, tsunamis, landslides, and earthquakes.
Dr. Theodosios Papathanasiou is a researcher in the fields of computational mathematics and mechanics. He is senior lecturer in structural engineering and director of civil engineering programmes at Aston University Birmingham.
Dr. Yurui Fan is a Senior Lecturer in Flood and Coastal Engineering in the Department of Civil and Environmental Engineering at Brunel University London. His research primarily focuses on water and environmental systems analysis, risk analysis of compound extreme events, artificial intelligence applications in civil engineering, and climate change adaptation.
Professor Hamid Bahai is a Professor of Computational Mechanics at Brunel University London. His many theoretical and applied contributions to mathematical modelling over the past 30 years include the development of new type of non-linear shell finite elements and a novel inverse eigenvalue formulation for optimising the vibratory behaviour of structures.
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