Machine Learning for Civil and Environmental Engineers: A Practical Approach to Data-Driven Analysis, Explainability, and Causality

Accessible and practical framework for machine learning applications and solutions for civil and environmental engineers

This textbook introduces engineers and engineering students to the applications of artificial intelligence (AI), machine learning (ML), and machine intelligence (MI) in relation to civil and environmental engineering projects and problems, presenting state-of-the-art methodologies and techniques to develop and implement algorithms in the engineering domain.

Through real-world projects like analysis and design of structural members, optimizing concrete mixtures for site applications, examining concrete cracking via computer vision, evaluating the response of bridges to hazards, and predicating water quality and energy expenditure in buildings, this textbook offers readers in-depth case studies with solved problems that are commonly faced by civil and environmental engineers.

The approaches presented range from simplified to advanced methods, incorporating coding-based and coding-free techniques. Professional engineers and engineering students will find value in the step-by-step examples that are accompanied by sample databases and codes for readers to practice with.

Written by a highly qualified professional with significant experience in the field, Machine Learning includes valuable information on:

• The current state of machine learning and causality in civil and environmental engineering as viewed through a scientometrics analysis, plus a historical perspective
• Supervised vs. unsupervised learning for regression, classification, and clustering problems
• Explainable and causal methods for practical engineering problems
• Database development, outlining how an engineer can effectively collect and verify appropriate data to be used in machine intelligence analysis
• A framework for machine learning adoption and application, covering key questions commonly faced by practitioners

A framework for machine learning adoption and application, covering key questions commonly faced by practitioners

About the Author

M. Z. Naser is a tenure-track faculty member at the School of Civil and Environmental Engineering & Earth Sciences and a member of the Artificial Intelligence Research Institute for Science and Engineering (AIRISE) at Clemson University, USA. Dr. Naser has co-authored over 100 publications and has 10 years of experience in structural engineering and AI. His research interest spans causal & explainable AI methodologies to discover new knowledge hidden within the domains of structural & fire engineering and materials science to realize functional, sustainable, and resilient infrastructure. He is a registered professional engineer and a member of various international editorial boards and building committees.