APSE SoE - Advanced Applications of Data Analytics and Machine Learning in Pavement Engineering

Start
22 Jun 2026
8:30 AM
End
26 Jun 2026
4:15 PM
Location
The University of Mississippi
Spaces left
15

Registration

Registration Fee - Non-students (APSE members) In person – $500.00
Includes access to all the APSE SoE sessions for the week, coffee and bagel for breakfast and lunch at Rebel Market for the five workshop days.
Registration Fee - Non-students (APSE members) Online – $400.00
Includes access to all live sessions, coding labs, and course materials via Zoom.
Registration Fee - Non-students (In Person) – $800.00
Includes access to all the APSE SoE sessions for the week, coffee and bagel for breakfast and lunch at Rebel Market for the five workshop days.
Registration Fee - Non-students (Online) – $700.00
Includes access to all live sessions, coding labs, and course materials via Zoom.
Registration Fee - Students (APSE members) In Person – $300.00
Includes access to all the APSE SoE sessions for the week, coffee and bagel for breakfast and lunch at Rebel Market for the five workshop days.
Registration Fee - Students (APSE members) Online – $200.00
Includes access to all live sessions, coding labs, and course materials via Zoom.
Registration Fee - Students (In person) – $600.00
Includes access to all the APSE SoE sessions for the week, coffee and bagel for breakfast and lunch at Rebel Market for the five workshop days.
Registration Fee - Students (Online) – $500.00
Includes access to all live sessions, coding labs, and course materials via Zoom.

This course aims to introduce participants to the fundamental and advanced applications of data analytics and machine learning (ML) in the context of pavement engineering. The program will bridge theoretical concepts with practical tools to enable engineers, researchers, and students to effectively analyze pavement performance data, optimize material design, and predict service life.

Key learning outcomes include:

• Apply Python Programming to Pavement Data Analysis: Develop proficiency in using Python and open-source libraries (NumPy, pandas, scikit-learn, and matplotlib) to clean, visualize, and analyze pavement datasets such as LTPP, RAP/WMA mixture data, and performance records.

• Implement Data-Driven Modeling and Statistical Techniques: Conduct exploratory data analysis, correlation assessment, and regression modeling to identify key performance drivers and understand variability in pavement material and field performance data.

• Develop and Evaluate Machine Learning Models: Build and validate predictive models such as Artificial Neural Networks (ANN), Support Vector Machines (SVM), Random Forests, Decision Trees, and K-Nearest Neighbors (KNN) to forecast pavement distresses and material behavior.