Revolutionizing Concrete Strength Forecasting with Machine Learning.

Fly ash concrete (FAC) offers an eco-efficient alternative to traditional concrete, yet predicting its compressive strength has posed challenges due to the complexity of its components. This course introduces participants to advanced ensemble learning techniques for accurately predicting FAC strength. By leveraging machine learning models like Random Forest, Gradient Boosting, and Super Learner algorithms, attendees will explore how to achieve reliable predictions while addressing high variance and computational challenges.
Through practical applications and SHAP-based feature importance analysis, the course provides a comprehensive framework for implementing data-driven approaches in FAC research and application.
Key topics include:

InnoBuild Academics: Advancing Canadian Architecture Through Innovative CPD
InnoBuild Academics is a premier provider of Continuing Professional Development (CPD) programs tailored for architects across Canada. Dedicated to fostering professional growth, the company offers a comprehensive range of courses that keep architectural professionals at the forefront of industry advancements. Their curriculum is designed to enhance knowledge in emerging technologies, sustainable practices, and innovative design methodologies, ensuring that architects are well-equipped to meet the evolving demands of the field. Committed to excellence and innovation, InnoBuild Academics creates a collaborative learning environment that encourages the exchange of ideas and expertise. The company’s programs are led by experienced industry professionals who provide insights into real-world applications of architectural principles. By prioritizing quality education and professional development, InnoBuild Academics empowers architects to advance their careers and contribute significantly to the built environment in Canada and beyond.
Jerry Luo, PhD, PE, is a licensed professional engineer in Ohio, Louisiana, and Texas, with over 15 years of diverse experience spanning higher education, research, and consulting in civil engineering and construction management. Renowned for his expertise in geotechnical engineering, he has published over 60 peer-reviewed research articles, significantly contributing to advancements in geotechnical risk assessment and infrastructure resilience. He also co-authored a widely recognized textbook on soil dynamics. Jerry has actively contributed to the global engineering community by serving on the editorial boards of multiple international journals and as a member of organizing committees for prestigious conferences. His work bridges academic excellence and industry practice, making a tangible impact on critical engineering projects. His dedication to mentorship and innovation reflects his commitment to shaping the next generation of civil engineers and advancing the profession through research, education, and practice.